A&P II - Endocrine System

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Question

Answer

which form of cellular communication involves the direct exchange of molecules and ions via gap junctions

direct communication

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name three important aspect of gap functions

1) coordination of ciliary movement, 2) coordination of heart contractions, 3) facilitated propagation of action potential

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what usually moves through gap junctions, that facilitates direct cellular communication

ions, small solutes, lipid soluble material

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what is paracrine communication

when one cell releases a chemical into extracellular fluid and another cell receives these chemicals via extracellular fluid

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name two set backs with Paracrine communication

1) highly specialized, 2) usually within the same tissue

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what is the function of paracrines

telling your neighbors what you are doing.

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name an example of a paracrine, its function, and the gland it comes from

somatostatin, decreases the release of insulin, from the pancreas

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what type of chemical communication system that is limited to the same cell that just excreted the chemical messenger

autocrine

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name an autocrine and its function

prostaglandins, used for smooth muscle contractions

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what is the name of the chemical messengers that are used in the endocrine system

hormones

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what is the functions of hormones

to relay information between cells that are distant

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how are hormones transported

through the blood stream

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how do hormones detect their specific target cell

the target cell has specific receptors that can detect the necessary hormone

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what is synaptic communication

communication that is relayed through a synapse instead of sending messages via the blood stream (i.e. nervous system) and neuron is very close to the target cell

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what system uses synaptic communication

nervous system

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name the chemicals that are released in a synapse

neurotransmitter

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compared to the endocrine system, in synaptic communication, travel time is

very rapid, or "high speed"

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the (endocrine, synaptic) communication uses the propagation of action potential along an axon

synaptic communication

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the (endocrine, synaptic) communication has highly specific destinations

synaptic communication

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what are the main cells/organs used in the endocrine system

glands

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what are the main cells/organs used in the nervous system

neurons

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what is the name of the chemical used to communicate messaged in endocrine and nervous system (respectively)

hormone and neurotransmitter

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the (endocrine, synaptic) communication is slower acting and the effects can last for days

endocrine communication

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the (endocrine, synaptic) communication is responsible for processes such as growth, development, and metabolic activities

endocrine communication

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the (endocrine, synaptic) communcation is responsible for crisis management

synaptic communication

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which system is best used for short-lived, split-second decisions

nervous system

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the (endocrine/nervous/both) system(s) rely on chemical release, use specific receptors in target cells, and are regulated by negative feed back system

both

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what three neurotransmitters are used as hormones

epinephrine, epinephrine, and dopamine.

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what is the goal of both the endocrine and nervous system

to maintain homeostasis

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name the 5 major processes of hormonal processes

1) growth/development, 2) reproduction, 3) regulate cell metabolism, 4) regulate blood and ion concentrations, 5) mobilization of bodily defenses

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what are endocrine organs

glandular (ductless) secretory cells that secrete hormones into the blood stream.

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what is the difference between exocrine organs and endocrine organs

exocrine organs secrete on to external surfaces (including GI surfaces) via a duct system.

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______________ dictates how the hormone behaves

composition

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name the three classifications of hormones

1) amino acid, 2) peptide, 3) lipid

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name the two types of amino acid hormones

tyrosine and tryptophan

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name two classes of hormones that are derived from the amino acid tyrosine

thyroid hormones and catecholmines

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amino acid derived hormones (can/cannot) pass through the membrane of a cell

cannot

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what hormones are derived from tryptophan, and what do they control

melatonin (sleep cycle) and seratonin

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define a peptide hormone

a peptide is a chain of amino acids, therefore it is a chain of amino acids that become glucoproteins

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name at seven peptide hormones

1) insulin, 2) GH, 3) ADH, 4) OXT, 5) FSH,6) LH, 7) TSH

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all peptide and amino acid hormones, except _____________________________, do not use carrier proteins for transport in blood

thyroid hormones

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lipid based hormones are _____________ based

cholesterol

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name the two types of lipid derived hormones

1) eicosanoids, 2) steroid hormones

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prostogandins (needed for coordination of cellular activity) are part of which class and subclass of hormones

lipid eicosanoids

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out of all the classes and subclasses of hormones which class and subclass are the most important

lipid derived hormones that are steroid based are the most important

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in blood plasma, which hormones need carrier proteins

steroid based hormones and thyroid hormones

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corticosteroids come from which endocrine gland

adrenal cortex

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calcitriol (vitamin D) comes from what endocrine gland

kidneys

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in the lipid class (steroid/eircosanoid) hormones are more structurally similar to cholesterol

steroid

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hormones that (use/ do not use) carrier proteins can stay in blood for longer periods of time (Days or weeks)

hormones that do use carrier proteins

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about how long can free range proteins last in blood stream (amino acids and peptides)

2 minutes to roughly an hour

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when do amino acid and peptide hormones become inactive (there are a total of 4 situations)

1) diffuses out, 2) binds to receptor, 3) absorbed, 4) broken-down

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what is another name for carrier proteins (proteins in blood that attach themselves to hormones for transport)

transport proteins

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out of the three major classes of hormones, which class has hormone receptors outside the cell membrane

amino acids and peptide hormones

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out of the three major class or hormone has receptors inside the cell membrane

lipid derived

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which group of amino acid hormones have receptors inside the cell

thyroid hormones

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name three mechanisms of hormone action

1) alter genetic activity, 2) alter rate of protein synthesis, 3) change membrane permiability

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what are hormone receptorss

a protien that binds one molecule/chemical signal to another molecule/chemical strongly

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how is cell or tissue/hormone sensitivity determined?

by the number and type of receptors have for that particular hormone.

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what is down-regulation

a cell taking action to "hide" or decrease the number of receptors it has for a particular hormone

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what is up-regulation

an action taken by a cell to make more hormone receptors readily available

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there are both extracellular hormone receptors and intracellular hormone receptors, which type uses the secondary messenger system

extracellular hormone receptors

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how are 2nd messenger systems activated

a hormone binds to the receptors on the outer surface of the plasma membrane

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what are the 2 hormone groups specifically that use a 2nd messegner system

1) catecholmines, 2) peptide hormones (except thyroid hormones)

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why is the 2nd messenger system in place for some hormones and not others

some hormones can cross (diffuse through) the plasma membrane, while others cannot pass the plasma membrane. the 2nd messenger sys. is for the hormones that cannot pass through the cellular membrane

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in a second messenger system, what is the first messenger

the extracellular hormone receptor

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what is a 2nd messenger in the 2nd messenger system

an intermediary molecule that appears with hormone-receptor interation (inside a cell)

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name three second messengers

1) cyclic Adenosine MonoPhosphate (cAMP), 2) cyclic GMP (cGMP), 3) Calcium Ions

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what is the term for a second messenger system that allows a small number of hormones bind to one cell but thousands of 2nd messengers respond

amplification

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what is receptor cascade

when one hormone stimulates more than one response; therefore altering many aspects of a cell function at the same time

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what is the name of the protein inside of a cell that acts as a link between the first and second messenger

G-Protien

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what can happen when a G-Protein is activated in a cell

the levels of cAMP, cGMP, or Calcium Ions can change

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second messenger systems (do/do not) allow specific hormones to directly affect the activities inside the sell

do not

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what enzyme helps to increase the number of active cGMP

Guanylate Cyclase

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what enzyme helps to decrease the number of active cGMP and/or cAMP in a cell

Phosphodiesterase (PDE)

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what enzyme helps to increase the number of active cyclic Adenosine Mono Phosphate (cAMP) in a Cell

Andenylate Cyclase

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what are the two actions that a cell does in response to cAMP activation

open ion channels or activates enzymes

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what is the result of cAMP opening ion channels or activating enzymes in a cell

increase (accelerated) metabolic rates

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name nine hormones that use cAMP as a second messenger

1) Epinipherin, 2) glucagon, 3) calcitonin, 4) parathyroid hormone, 5) ACTH, 6) FSH, 7) ADH, 8) LH, and 9) TSH

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what two hormones stimulate a deactivation of cAMP in a second messenger system

Catecholmines

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name the enzyme that breaks down arachodonic Acid

phospholipase C (PLC)

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in a second messenger system, what molecule leads to the opening of Calcium Ion channels (protein kinase (PKC))

Diacyclglycerol (DAG)

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which 2nd messenger leads to a positive feedback loop and in which cells/tissue/situation would you find this

calcium ions, smooth muscle of uterus during labor and child birth

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what does calcium bind to, in smooth muscle that leads to child birth

calmodulin

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what type of hormone would use calcium ions as a second messenger

Oxytocin

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(extracellular/intracellular) hormone receptors have two binding sites. One that binds to _____________ and the other binds to ____________

extracellular hormone receptors have two binding sites. One that binds to a hormone/DNA and the other binds to DNA/Hormone (respectively)

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what is the biggest advantage of the steroid hormones

it can alter the rate of DNA transcription

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where are intracellular hormone receptors generally located

the cytoplasm and nucleus of a cell

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name the three types of stimuli in the body

1) humonal stimmuli, 2) hormonal stimuli, 3) neural stimuli

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what does humonal stimuli monitor

change in composition of bodily fluids

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what does neural stimuli monitor

the change in presence of neurotransmitters at neuroglandular junctions

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a response to an increase in blood glucose is (humonal, hormoneal, or neural) stimulus

humonal

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what brain structure pretty much controls the entire endocrine system

hypothalamus

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the infandibulum is part of the (anterior/posterior) pituitary and is made out of primarily ______________ tissue

posterior pituitary and is primarily neural tissue from hypothalamus

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the hypothalamus controls the pituitary in two ways, name them

1) neural controls, and 2) Regulatory Hormonal Controls

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what kind of tissue makes up the antierior pituitary gland

highly vascularized epithelial tissue

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another name for adenohypophysis

anterior pituitary

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what are the target cells for hypothalamic hormonse

anterior pituitary

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what are the three ways in which the hypothalamus controls the pituitary gland

1) neural release of hormones in in posterior pituitary, 2) secretion of regulatory hormones, 3) autonamic centers that exert direct control over adrenal medulla

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name two hormones that are created in the hypothalamus and released in the pituitary

antidiuretic hormone (ADH) and Oxytocin (OXT)

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how do regulatory hormones from the hypothalamus work

they stimulate the anterior pituitary to release the hormones housed in the anterior pituitary

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in the hypothalamus what hormones respond to humoral (chemical) stimuli in the blood (i.e. changes in blood composition)

all the regulatory hormones and Antiduretic hormone (ADH)

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define a neuroendocrine response

a hormonal and neural response to a mechanism

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what hormones are examples of neuroendocrine response

Oxycontin, epinephrine, and norepinephrine

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in what response situation does the endocrine response to a stimulus depend on pulses and the frequency of each pulse

neuroendocrine response

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name the three regions of the anterior pituitary

1) pars distalis, 2) pars tuberalis, and 3) pars intermedia

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what is the hypophyseal portal system composed of

a network of capillaries that carry blood from one capillary to another (this generally does not happen in the rest of the body)

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what is the main purpose of the hypophyseal portal system

provides an efficient means of communication, keeping hormone concentrations high within the anterior pituitary prior to them being diluted in the bloodstream while traveling to the rest of the body.

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name the two classes of regulatory hormones resleased by the hypothalamys

releasing hormones and inhibiting hormones

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what is the function of releasing hormone

to stimulate the synthesis of one or more hormones in Anterior Pituitary

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what is the functions of inhibiting hormones

to prevent the synthesis and release of one or more hormones in the anterior pituitary

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for a majority of the hormones released by the anterior pituitary are tropic hormones, what does this mean

tropic hormones are hormones that have target cells that are other endocrine cells (they stimulate the release of hormones by other endocrine glands)

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what is endocrine gland is also called the "master gland"

pituitary gland

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name the four tropic hormones released by the pituitary gland

Thyroid Stimulating Hormone (TSH), Adrenocorticotropic Hormone (ACTH), Lutenizing Hormone (LH), Follicule Stimulating Hormone (FSH)

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name the two non-tropic Hormones released by the anterior pituitary gland

Growth Hormone and Prolactin

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name all 7 hormones released by the Anterior pituitary gland

1) Thyroid stimulating hormone, 2) Adrenocorticotropic Hormone, 3) Follicle Stimulating Hormone, 4) Lutenizing Hormone, 5) Prolactin, 6) Growth Hormone, 7) Melanocyte Stimulating Hormone

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what is the trigger for Thyroid Stimulating Hormone synthesis and release, what organ does it come from?

Thyrotropin Releasing hormone, Hypothalamus

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What is the target cell of Thyroid Stimulating Hormone, what occurs when the target cell is stimulated

Thryoid Gland, the release of Thyroid homones

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what would happen if the Anterior Pituitary gland stopped releasing TSH?

1) Hypothalamus would release an overabundant amount of Thyrotropin Releasing Hormone, 2) There would be a hyposecretion of TSH, 3) Thyroid would not synthesize or release T-3/T-4, and 4) T-4 would not inhibit the secretion of Thyrotropin Releasing Hor.

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what would happen if the Anterior pituitary gland over produced TSH

1) over abundant amount of T-3/T-4 release from thyroid, 2) T-4 would severely inhibit Thyrotropin Releasing Hormone in Hypothalamus,

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What stops the release of Thyrotropin Releasing Hormone and Thyroid Stimulating Hormone from the Hypothalamus and anterior pituitary (respectively)

increased levels of T-4 in blood stream

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what is the target cell for Corticotromin (ACTH)

adrenal cortex (particularly the zona fasciculata or the cells that produce the glucocorticoids (Cortisol))

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what happens once Adrenocorticotropic hormone reaches its target cells

cortisol and other glucocorticoids, these stimulate the transformation of glucose from non-glucose sources

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what is the trigger for Adrenocorticotropic hormone release

Corticotropin-Releasing Hormone from the hypothalamus

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what is the signal for the anterior pituitary to stop releasing ACTH

increased glucocorticoid levels in the blood stream

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What would happen if the hypothalamus does not secrete Thyrotropin Releasing hormone

The Anterior pituitary will not release TSH. The thyroid will not produce or secrete thyroid hormones ,

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what would happen if the anterior pituitary did not secrete enough ACTH?

1) there would be an overabundant amount of corticotropin-releasing hormone, 2) the adrenal cortex would not release enough cortisol, 3) gluconeogenesis would not occur

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what would happen if the anterior pituitary secreted too much ACTH?

1) Corticotropin-Releasing Hormone would not be released, 2) overabundant amount of Cortisol release, 3) hyperglycemia and possible Diabetes Mellutis

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name the two gonadotropins that are released from the anterior pituitary

lutenizing hormone and follicle stimulating hormone

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what are the gonad organs in the male and female

testes (male) and ovaries (female)

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what is the trigger for Follicle stimulating Hormone

gonadotropin-Releasing hormone (GnRH) from hypothalamus

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what is the trigger for Lutenizing hormone

gonadotropin-releasing hormone (GnRH) from hypothalamus

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in a female what are the target cells of the follicle stimulating hormone,

the follicle cells in the ovaries

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in a female, what happens when the follicle stimulating hormone reaches it's target cell

1) encourages follicle development, 2) secretion of estrogens (estradiol)

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what is the causes the Follicle Stimulating hormone in a female to stop secreting

inhibin (a peptide hormone released by the ovaries)

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what are the target cells of the follicle stimulating hormone in men

nurse cells in the seminiferous tubules of the testes

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what are the effects of the follicle stimulating hormone in men

promotions of sperm maturation and develpment

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what is the trigger for lutenizing hormone

the release of Gonadotropin Releasing Hormone by the hypothalamus

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what is the target organ for lutenizing hormone in females

ovaries

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what is the major response to lutenizing hormone in females

inducing ovulation

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lutenizing hormone is also a tropic hormone, what hormone(s) is(are) released in women at the target organ

estrogen and progesterone are released by the female ovary

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in men, what is the target cells for lutenizing hormone

interstitial (Leydig) cells of the testes

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what is the response of the Leydig cells when stimulated by lutenizing hormone

release of androgens (specifically testosterone)

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if the anterior pituitary is not functioning properly and does not release enough lutenizing hormone needed, what happens in females

1) there would be a hypersecretion of Gonadotropin Releasing hormone from the hypothalamus, 2) estrogens and progesterone are not released to stop the release of GnHR, 3) there is no ovulation,

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if the anterior pituitary is not functioning properly and does not release enough lutenizing hormone needed, what happens in males

1) there would be a hypersecretion of Gonadotropin Releasing hormone from the hypothalamus, 2) androgens are not released by interstitial cells to stop release of GnRH in hypothalamus

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release of FSH is not being secreted at the level that it needs to that it needs to be secreted in men, what happens

1) hypersecretion of gonadotropin releasing hormone by hypothalamus, 2) nurse cells are not stimulated to facilitate sperm development and maturation, 3) inhibin is not produced.

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release of FSH is not being secreted at the level that it needs to that it needs to be secreted in women, what happens

1) hypersecretion of gonadotropin releasing hormone by hypothalamus, 2) follicles are not stimulated to prepare follicle/oocyte for , 3) inhibin is not produced.

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in men and women with hypogonadism, what happens

they do not sexually mature, men do not produce functional sperm, and women do not produce functional oocytes

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for men, what is the target cell of prolactine

interstitial endocrine cells

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what are the target cells of prolactin in women

mammilary glands

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what is the response to prolactin in women who are nursing or pregnant

stimulate milk produstion and let down

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which hormone acts as a natural birth control for women who have given birth

prolactin

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in men, what is the funtion of prolactin

helps to regulate androgen production

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what hormone makes Leydig Cells more sensitive to Lutenizing hormone

prolactin

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under normal circumstances, Prolactin-Inhibiting Hormone from the hypothalamus is generally (high/low) concentration in the blood stream

generally, prolactin inhibiting hormone is high

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prolactin inhibiting hormone is also a neurotransmitter, however the neurotransmitter has a different name. what is the name of the neurotransmitter

dopamine

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what is the trigger for prolactin release

prolactin releasing hormone

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for people with schizophrenia dopamine levels are usually (high/low). as a result, there is a low secretion rate of prolactin

high

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for people with depression (or parkinson's disease), dobutamine levels are (high/low) as a result, there is a high secretion rate of prolactin

low

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what is another term for somatotropin

growth hormone

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what is the target for growth hormone

all cells with a primary focus on skeletal muscle and cartilage

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what is the cellular response to growth hormone

cell growth and accelerated protein synthesis

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what tissues does growth hormone directly effect

stratified squamous epithelial tissue on skin, liver, and adipose tissue

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liver cells respond to growth hormone by releasing hormones called

somatomedins

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what is somatomedin

insulin-like growth factor

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in response to growth hormone there is a(n) (increased/decreased) level of fatty acids and glucose

increased

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increased levels of growth hormone (can/cannot) cause Diabetes Mellitus

can

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what triggers the release for growth hormone

growth hormone releaseing factor from the hypothalamus

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what two factors assist in stopping the release of growth hormone?

1) the release of growth hormone inhibiting factor (or somatostatin) from the hypothalamus, and 2) increase in somatomedin levels in the blood

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what are the target cells by the melanocyte stimulating hormone

melanocytes in skin

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what is the target cell's response to melanocyte stimulating hormone

increased production of melanin

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what inhibits melanocyte stiumulating hormone

dopamine

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when are the 4 major times in life when MSH is secreted

1) fetal development, 2) pregnant women, 3) very young children, 4) some disease

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what is the trigger for MSH release

pro-opticmelanocortin (POMC)

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why can melanocyte stimulating hormone be an important hormone

it can help show that there is something wrong with the anterior pituitary

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name a thyroid disease that can increase the amount of melatonin release

addisons disease

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if there is a hypersecretion of ACTH, how can does this affect MSH levels in the blood, and why

MSH needs carrier proteins to travel in blood stream, ACTH stimulates release of cortisol, which stimulates the production of carrier proteins

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what is another name for the neurohypophysis

posterior pituitary

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which hypothalamus nuclei is responsible for the production and release of Antidiuretic Hormone

Supra-optic Nuclei

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which hypothalamic nuclei is responsible for the production and release of oxytocin

paraventriculare nuclei

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define axoplasmic transport

the movement of ADH and OXT along the axons of their respective nuclei prior to release

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which posterior pituitary hormone uses cAMP as a second messenger

ADH and OXt

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what is another term for vasopressin

Antidiuretic hormone

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what is the trigger for ADH release

dehydration

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what is the target organ for ADH

kidneys

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name one intracellular calcium binding protien

calcimodulin

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what is the main action of ADH

increasing water conservation by kidneys

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what is the major function of oxytocin

induction of labor in pregnant women

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what is the target cell of oxytocin in women

myometrium of uterus (major), and myoepithelium around aveoli and mammilary glands

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what are ALL (major and minor) functions of Oxytocin in women

labor and delivery (major) and milk ejection (minor)

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what is one stimulus of oxytocin release

infant suckling

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in men, what organs does oxytocin target

smooth muscle in ductus (vas) deferens and prostate

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what is the cause of Diabetes Insipidus

inadequate amounts of ADH release

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what is diabetes insipidus and how is it different from diabetes mellitus

kidneys do not function properly and has excessive water loss

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in regards to number of receptors, what does down-regulation ma allow the target cell to

it's number of receptors for a ligand

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name the hormone that promotes gluconeogenesis in the liver

cortisol

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the liver responds to growth hormone by releasing hormones called

somatomedins

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name one intracellular calcium-binding protein is

calmodulin

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peptide hormones are composed of _______________

amino acids

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name a hormone that plays a pivotal role in setting the metabolic rate and thus impacting body temperature

thyroxine (T3)

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the link between a first messenger and a second messenger in a cell that responds to peptide hormones is usually

G-Protein

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what is the main action of antidiuretic hormone is

increased water conservation by kidneys

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Type II Diabetes Mellitus is characterized by

a lack of response by target cells to insulin

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the hypothalamus controls secretion in the adenohypophysis by

secreting releasing and inhibiting factors into a tiny portal system

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which of the following might occur in an overdose of insulin? A) glycosuria, B) low blood glucose, C) polyuria, D) high blood glucose, E) ketoacidosis

B) low blood glucose

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synergism occurs when

hormones working together to produce a larger effect than predicted

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membrane receptors are used by which of the following types of hormones ? A) eicosanoids, B) catecholamines, peptide hormones, and eicosanoids, C) catechloamines, D) thyroid, E) peptide hormones

B) catecholamines, peptide hormones, and eicosanoids

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what are the target cells for the hormone that causes a decrease in blood-calcium concentration

osteoblasts

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what is the pituitary hormone that controls the release of glucocorticoids from the adrenal cortex is

adrenocorticotropic hormone (ACTH)

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what kinds of bodily functions does the thyroid gland regulate

growth, development, and cellular metabolism

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what is the main ion that is needed for the thyroid to function properly

iodine

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what is the structure that connects the two "wings" of the thyroid

isthmus

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what type of cells line the thyroid follicles

simple cuboidal

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what is the name of the fluid that is inside each thyroid follicle

colloid fluid

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what are the main particles that make up the colloid

Iodine ions and thyroglobulin

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what is another term for parafollicular cells

c (clear) cells

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what are C - Cells

cuboidal cells that are sandwiched between the follicular cells of the thyroid gland

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how is iodine in the body obtained (do we make it ourselves)

iodine is obtained through diet

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how are iodine ions transported through blood

TSH sensitive carrier proteins

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what is the name of the enzyme that helps the iodine ion lose an electron and become electrically neutral

thyroid peroxidase

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what is the difference between T3 and T4

the number of iodine molecules attached to the tyrosines ; T3 has three iodines attached, and T4 have four iodines attached

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(T3/T4) is the thyroid hormone that acts as a negative feedback for TSH in the Anterior Pit. and the Thyrotropin Releasing Hormone in the Hypothalamus

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how does increased TSH stimulation effect colloid

increased TSH stimulation increases colloid size

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how does decreased TSH stimulation effect colloid size

decreased TSH stimulation decreases colloid size

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what is another term for tetraiodothyronine

thyroxine/T4

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what is another term for T3

triiodothyronine

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how does increased TSH levels affect Iodine transportation

with increased TSH levels there is an increased rate of Iodine ions into the follicular cells of thyroid

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how does increased TSH levels affect thyroglobulin and thyroid peroxidase

increased levels of TSH levels in blood leads to an increased production of thyroglobulin and thyroid peroxidase (TPO)

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what acts as a 1st messenger for TSH

thyroid peroxidase (TPO)

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what is the function of Adenylate cyclase in the thryroid

convert ATP to cAMP

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what is the second messenger used by TSH

cAMP (cyclic Adenosine Monophosphate)

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what is thyroid-binding globulins

(albumin ) a carrier protein that binds to T3 and T4 when these hormones are in the blood stream

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what is the limiting factor for T3/T4 production in the thyroid

lack of Iodine in diet

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how does lack of iodine affect the hypothalamus and anterior pituitary

hypothalamus will secrete and increased amount of thyrotropin releasing hormone and the anterior pituitary secretes an increased amount of Thyroid stimulating hormone because there is not enough Thyroxine to create a negative feedback system

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how does lack of iodine affect the thyroid gland itself

without enough iodine to make T4 there is no hormone that creates a negative feedback system for TSH. Therefore TSH continually stimulates the Thyroid. The increased TSH productions causes the colloid to increase in size (creating a Goiter)

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what are the target cells for T3/T4

pretty much every cell in the body; at least any cell that has Thyroid hormone receptors

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what is the cellular response to increased thyroid hormone

increased cell metabolism

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increased HR, rate of energy consumption, and nervous system stimulation can be the results of (hyper/hypo) thyroidism

hyperthyroidism

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once inside the cell, T3/T4 can go to one of three sites. Name the cytes

cytoplasm, mitochondria, nucleus

🗑

what happens to T3/T4 that is stored in the cytoplasm of a cell

it is stored until there is a decrease in circulating T3/T4

🗑

when T3/T4 binds to receptors in the nucleus what happens

on the receptors opposing side, it attaches to the DNA and instructs the cell to create enzymes that are involved with energy transformation

🗑

what is the main enzyme that is produced when T3/T4 receptors activate the DNA

Sodium-Potassium ATPase

🗑

what does Sodium - Potassium ATPase do in the cell

it moves sodium out of the sell, and brings Potassium in to the cell, in doing so it uses large amounts of ATP

🗑

what would happen in the cytoplasm if there was an under production of T3/T4

there would be an under production of sodium - potassium ATPase, there would be too much sodium ions and not enough potassium in the cytoplasm

🗑

what would happen in the cytoplasm if there was an over production of T3/T4

there would be an over production of sodium - potassium ATPase, there would be not enough sodium ions and too much potassium in the cytoplasm

🗑

what is the calorigenic effect

an increased cellular metabolism rate, which leads to increased oxygen consumption, increased body temperature

🗑

in children, why is calorigenic effect important

essential for growth of skeletal, muscular, and nervous systems

🗑

what is the hormone that is produced by the parafollicular cells in the thryroid

calcitonin

🗑

_______________ regulates calcium ions in the body by stimulating calcium ion secretion in the kidneys, and prevents calcium uptake in the GI

calcitonin

🗑

at (high/low) calcium ion concentrations can lead to decrease in sodium ion permiability and (therefore) decreased membrane responsiveness

high

🗑

what happens when calcium ion levels are dangerously low

increased membrane permeability to sodium ions , cells can become excitable and result in convulsions or spasms

🗑

what gland and hormone is primarily responsible for maintaining blood/calcium solution at the appropriate level

parathyroid and parathyroid hormone

🗑

name the cells that produce parathyroid hormone

parathyroid (principal) cells

🗑

what is the function of parathyroid cells,

to monitor calcium ion levels in blood stream and to release parathyroid hormone (PTH) when calcium ion levels drop too low

🗑

what hormone is triggered when there is a calcium ion concentration in the bloodstream is too low

parathyroid hormone

🗑

what is the cellular response to parathyroid hormone

increase calcium levels in blood by stimulating osteoclasts to release it from bone (major), increase calcium reabsorption in kidneys (minor)

🗑

what is the target cell of parathyroid hormone

osteoclasts (primarily) and kidneys (minor)

🗑

what hormone stimulates the formation of calcitriol in the kidneys

parathyroid hormone

🗑

what are the two parts of the suprarenal gland

adrenal cortex and adrenal medulla

🗑

name the three sections of the adrenal cortex (from most external to most internal)

zona glomerulosa, zona fasciculata, and zona reticularis

🗑

name the main function of cortisol and cortisone

increasing the amount of blood glucose by using non-carbohydrate sources (gluconeogenesis)

🗑

name the class of hormones that are released from the zona glomerulosa in the adrenal cortex

minerocorticoids

🗑

what is the most notable mineralocorticoid, and what is it's primary functions

aldosterone, regulated electrolytes (most namely it reabsorbs sodium ions)

🗑

what class of hormones are released from the zona fasciculata of the adrenal cortex

glucocorticoids

🗑

what class of hormones are released from the zona reticularis

androgens (testosterone)

🗑

the only source of testosterone in women come from what organ (name the specific cell that produces this hormone)

zona reticulata cells in the adrenal cortex

🗑

name the two most common glucocorticoids

cortisol and cortisone

🗑

name the transport proteins that bind to corticosteroids in the blood stream

transcortins

🗑

what stimulates the release of aldosterone from the adrenal cortex

there are several including: low BP, high potassium ions, low sodium ions, increased angiotension II levels

🗑

what are the target cells for aldosterone

any duct that works to excrete ionic compositions of fluids (pancreas, sweat glands, kidneys, and salivary glands)

🗑

what is response when cells are triggered by aldosterone

the increased release of potassium and decreased release of sodium

🗑

how is water effected by aldosterone

water follows salt, when salt is retained water is also retained

🗑

how is the behavior of water defer between the release of ADH and Aldosterone

ADH water does not follow salt, ADH just tells kidneys not to release water. Aldosterone works primarily with the Sodium/potassium concentrations, in the presence of aldosterone sodium ions are retained and water follows the sodium ions

🗑

an increased interest in salty foods could signal an increase in what hormone (name the hormone, the class of hormones it belongs to, and where it comes from)

aldosterone, mineralocorticoids, from the zona glomerulosa in the adrenal cortex

🗑

during a regular day, when are glucocorticoids at their lowes, when are they at their highest, and when do they peak

lowest at night, highest in afternoon/evening, peak around mid-day

🗑

what is the hormone that is most responsible for gluconeogenesis (hormone name, the class of hormones, and where it comes from)

cortisol (case can be made for cortisone), glucocorticoids, from the zona fasciculata in the adrenal cortex

🗑

what group of hormones are best known for their anti-inflammatory responses

glucocorticoids

🗑

name the functions of glucocorticoids

- maintain BP levels, - increase glucagon levels, - assist in growth and metabolism, **-gluconeogenesis***

🗑

explain why a prolonged exposure to glucocorticoids can lead to sickness

it is an anti-inflammatory, which suppresses the immune system under stress, prolonged immune system suppression can lead to bacterial and viral infections

🗑

name two anti-insulin hormones

growth hormone and cortosol

🗑

how do glucocorticoids fight inflammation?

they inhibit leukocytes (WBC's)

🗑

what happens if the zona reticularis releases too much androgens in a female

the excess androgens are converted to estrogen

🗑

name the enzyme that converts testosterone to estrogen

aromatase

🗑

when is aromatase most active in women

prior to puberty and after menopause

🗑

what is the importance of androgen release from the adrenal cortex in women

promotes increased muscle mass, blood cell formation, and increased sex drive

🗑

name the two types of receptors in the sympathetic nervous system

alpha and beta

🗑

name the catecholamines

epinephrine and norepinephrine

🗑

what triggers the adrenal medulla to release catecholamines

the alpha and beta receptors of the sympathetic nervous system

🗑

what is the function of chatecholamines stimulation

mobilicing glycogen reserves resulting in increased strength and enderance, and increased rate of glucose breakdown

🗑

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