lect 1

Question 1

what is the function of endocrine system

Answer 1

• coordinate and integrate cellular activity within the whole body by regulating cellular and organ function throughout life and maintaining homeostasis

–> regulate sodium and water balance

–> regulate calcium and phosphoate balance

–> regulate energy balance

–> coordinate stress response

–> regulate reproduction, development, growth and senescence

Question 2

endocrine glands general

Answer 2

• no anatomical connection
• ductless glands
• transport hormones via blood stream

Question 3

transport of hormones

Answer 3

• endocrine cell located close to blood stream
• releases hormone in blood stream and travels throughout the body at different sites
• therefore has a widespread effect on multiple organ system

ENDOCRINE = within cell

Autocrine = acts on same cell

paracrine = distant cell

Question 4

hormone half life

Answer 4

• duration in circation is dependent upon protein binding (the greater the protein binding, the greater the half life)

Hormone metabolism (where it ocurs)

–> liver

–> site of action

Excretion

–> urinary excretion (most thorugh urine; can measure hormone levels via urine)

–> biliary excretion (some steroids)

Question 5

peptide hormone characteristics

Answer 5

• can be small to large (3-200 amino acids in size)
• synthesized as a pre-prohormone
• post-translation processing (peptide cleavage and glycosylation) –> active form
• can be stored in vescile
• calcium dependent release
• hydrophilic
• circulate free (SHORT HALF-LIFE)
• bind cell surface receptors

Question 6

Steroid hormone characteristics

Answer 6

• LIPOPHILIC
• Derived from cholesterol
• circulate bound (longer half-life)
• cross plasma membranes (INTRACELLULAR)

Question 7

amino acid derived hormones characteristics

Answer 7

• derived from tyrosine
• CATECHOLAMINES

–> hydrophilic, Circulate free, cell surface receptors

• Thyroid hormones

–> Hydrophilic, circulate BOUND, intracellular receptors (can’t pass through membrane… requires transporter)

Question 8

G-Protein coupled receptors (GPCRs)

Answer 8

• Amino-acid derived hormones (catecholamines)
• Peptide hormones (TSH, LH, ADH)

Question 9

Receptor protein tyrosine kinases (RTKs)

Answer 9

• Peptide hormones (insulin, growth hormone)
• only one transmembrane domain

Question 10

Intracellular receptors

Answer 10

• Thyroid hormones
• steroid hormones (estrogen)

**regulate gene transcription**

Question 11

Hormone release

Answer 11

• Release of hormoens is PULSATILE (released in small bursts) and PERIODIC (periodic elevation in hormone levels)
• release is regulated by multiple mechanisms including

–> neural

–> hormonal

–> nutrient/ion regulation

Question 12

Nuronal regulation of hormone release

Answer 12

• Peripheral (autonomic system)
• central regulation (feedback process)

–> pituitary releases prolactin –> rise in prolactin levels –> increase DA release on hypothalamus –> shuts down pituitary release of prolactin

Question 13

hormonal regulation of hormonal release

Answer 13

• Tropic hormones (TSH, LH) = regulate the release/synthesis of other hormones

–> can have positive (feed forward) or negative feedback

Question 14

Nutrient or ion regulation of hormone release

Answer 14

• Ca++ via PTH

–> Parathryoid gland releases PTH which acts on bone to release Ca++ —> acts on parathyroid glands to inhibit PTH release

• Glucose/insulin

Question 15

FEEDBACK LOOPS

Answer 15

• Ultra-short loop: hypothalamus releasing factor and then responding to that factor (quick pulsatile release)
• Short loop: hypothalamus releasing factor onto the anterior pituitary –> anterior pituitary releases trophic hormone back to hypothalmus to shut it off
• Long loop: hypothalamus releasing factor onto anterior pituitary which releases a trophic factor onto target organ and then back to either the anterior pituitary or the hypothalamus

Question 16

ENDOCRINE DYSFUNTIOn

Answer 16

• can be do to either too much or too little hromone action

–> abnormal hormone production, change in the receptor numbers, change in the signaling molecule function

• DECREASED RESPONSIVENESS (change in maximal response/effect)

–> change in receptor number, decreased enzyme/down stream target of receptor, presence of non-competitive inhibitor, decreased target cells

• DECREASED SENSITIVITY (no change in maximal response, just takes more hormone)–> shift right

–> due to decreased receptor affinity, increased hormone degradation, increased competitive inhibitor

Question 17

How to interpret hormone measurements**********

Answer 17

measure trophic hormone and trophic hormone release

Question 18

high pituitary hormone

Answer 18

• target hormone level

–> low = fairlue of target oran

–> high = autonomous secretion of pituitary hormone or resistance to target hormone action

Question 19

low pituitary hormone

Answer 19

• Target hormone level

–> low = pituitary failure

–> high = autonomous secretion by target endocrine organ

Question 20

what are some other considerations during testing the endocrine system

Answer 20

• evaluate hromeon and regulator factor together

–> glucose and insulin

–> calcium and PTH

• evaluate hromone together with ropic hormone

–> estradiol and LH

• Elevation of pairs indicates resistance

–> glucose and insulin

• Monitor hormone excretion over 24 hours, better than 1 time plasma reading