ME04 - Introduction to Endocrine

Question 1

Local chemical messengers secreted by cells into the ex
tracellular fluid & affect neighboring cells of a different
type

Answer 1

Paracrine/Juxtacrine (Histamine)

Question 2

Affects cells of the same type
Secreted by cells into the ECF and affects the function of
the same cells that produced them by binding to cell sur
face receptors

Answer 2

Autocrines

Question 3

Peptides secreted by cells into the ECF & can func

tion as autocrines, paracrines or endocrine hormones

Answer 3

Cytokines

Question 4

Example of Cytokines

Answer 4

a. interleukins & lymphokines ? secreted by
helper cells & act on other cells of the immune system
b. Leptin (adipokines) ? secreted by adipocytes

Question 5

Secreted by neurons into the circulating blood and influ

ence the function of cells at another location in the body

Answer 5

Neuroendocrine Hormones

Question 6

Example of Neuroendocrine Hormones

Answer 6

ADH, OTC, & hypophysiotropic hormones

Question 7

Released by endocrine glands into blood stream & influence function of target cells
Some affect almost all cells & organs (GH, Thyroid hormone, Catecholamines)
Other affect specific tissues (ACTH, TSH, FSH & LH)
Secreted by ductless glands in the endocrine system

Answer 7

Endocrine Hormones

Question 8

Function of Endocrine Hormones

Answer 8

Play important role in homeostasis

Essential to the maintenance of the life & well being of an individual & of the species

Question 9

Chemical Messengers

Secreted into the blood and acts on another location

Answer 9

Hormones

Question 10

Main site of inactivation

Answer 10

Liver

Question 11

Mechanism for removal of hormones

Answer 11

Kidneys, Liver

Question 12

General Characteristics of Hormones

Answer 12

1. Secreted by specific group of cells
2. Thrown directly into circulation
3. Exert effects on target tissues which are distant from the source of hormone
4. Do not create an additional or new function, only modify or alter functions that already exists.
5. Rate of secretion fluctuates. Increases when there is a need for it; minimal when need not present.
6. Do not stay in the circulation forever
   
   • Can undergo inactivation
   • Main site of inactivation: LIVER
     - Can be removed from circulation through kidneys.
     - Plasma concentration of hormones tested by determining

Question 13

Forms of Chemical Signaling

Answer 13

Autocrine ? cell targets itself

Signaling across gap junctions ? Cell targets a cell connected by gap junctions

Paracrine ? Cell targets nearby cell

Endocrine ? Cell targets a distant cell through the bloodstream

Question 14

Hormones synthesized and secreteed by dedicated Endocrine Glands

Answer 14

Pituitary Gland ? GH, Prolactin, ACTH, TSH, FSH, LH

Thyroid Gland ? T4,T3, Calcitonin

Parathyroid Gland ? PTH

Islets of langerhans ? Insulin, Glucagon, Somatostatin

Adrenal Gland ? Epinephrine, NorEpi, Cortisol, Aldosterone, DHEAS

Ovaries ? Estradiol, Progesterone, inhibin

Testes ? Testosterone, AMH, Inhibin

Question 15

Hormones Synthesized in Organs with Primary Function other than Endocrine

Answer 15

Brain (Hypothalamus) ? ADH, Vasopressin, Oxytocin, CRH, TRH, GnRH, GHRH, Somatostatin, Dopamine

Brain (Pineal Gland) ? Melatonin

Heart ? ANP

Kidney ? Erythropoietin

Adipose Tissue ? Leptin, Adiponectin

Stomach ? Gastrin, Somatostatin, Ghrelin

Intestines ? Secretin, Cholecystikinin, GLP-1, GLP-2, GIP, Motilin, IGF-1

Liver ? IGF-1

Question 16

Classify Hormones

Answer 16

1. PROTEIN HORMONE
   
   • More common, Stored in vesicles
2. BIOGENIC AMINES
   
   • derivatives of tyrosine
     
     • thyroid hormones (T3 & T4), adrenal medullary hormones
   • derivative of histidine:
     
     • histamine (mast cells inconnective tissues)
   • derivatives of tryptophan
     
     • melatonin (pineal gland)
     • serotonin (blood platelets)
3. STEROID HORMONE
   
   • derivative of Cholesterol
   • Synthesized as needed

Question 17

Produces new proteins from DNA
Lipid-soluble
Reflection Coefficient closer to 0

Answer 17

STEROID HORMONES

Slow-acting; To produce 2 proteins from DNA

Question 18

Modifies existing proteins
Water-soluble
Reflection Coefficient closer to 1

Answer 18

Protein Hormones - facilitates signals; Faster

Question 19

Types of Hormone Receptor

Answer 19

G-PROTEIN LINKED HORMONE RECEPTORS
Transmembrane proteins loop in and out of the cell membrane seven times
Make use of G-Proteins

ENZYME-LINKED HORMONE RECEPTORS
Passes through the membranes only once
Makes use of intracellular enzymes directly
E.g. Leptin and its use of Tyrosine Kinase

G Proteins

• Heterotrimeric GTP-binding Proteins
• Act as TRANSDUCERS
• Link hormone receptors with 2nd messenger systems (Intracellular Enzymes and Ion Channels)

Question 20

Intracellular Enzymes and Ion Channels

Answer 20

May be Gs Protein (stimulatory) or Gi Proteins (inhibitory)

3 subunits: alpha, beta, gamma

Question 21

The Second-Messenger System

Answer 21

? cAMP/cGMP
? IP3/DAG
? Calcium-Calmodulin
? Tyrosine Kinase

Question 22

Most common 2nd Messenger System

Answer 22

cAMP/cGMP System

MECHANISM
Alpha subunit of G proteins activates Adenylate cyclase and together with ATP ?>forms cAMP ?> activates protein kinase A

Question 23

Used by all Hypothalamic Hormones EXCEPT CRH

- Mediates smooth muscle contraction by hor-mone/neutrotransmitter (e.g. Motilin in the GI)

Answer 23

Phospholipid System (IP3/DAG)

• MECHANISM
  Phospholipase C ?> PIP2 ?>PIP2 splits into IP3(releases Calcium) and DAG (activates protein kinase C)

Question 24

Used by Insulin, Growth factors, EPO, Leptin

Answer 24

Tyrosine Kinase

Question 25

Pathway&raquo_space; G protein&raquo_space; Protein Kinase

Answer 25

cAMP&raquo_space; Gs INC cAMP; Gi DEC cAMP; Adenylate Cyclase&raquo_space; Protein Kinase A

IP3/DAG&raquo_space; Gq INC IP3/DAG; Phospholipase C&raquo_space; Protein Kinase C
cGMP&raquo_space;———————-&raquo_space; Protein Kinase G
Tyrosine Kinase&raquo_space; ———-&raquo_space; Tyrosine Kinase/ JAK-STAT
Intracellular (Steroid Hormones)

Question 26

Must be transported bound to a protein in the blood

Answer 26

Lipid Soluble Hormones

Question 27

Active form of Lipid Soluble Hormones

Answer 27

FREE, UNBOUND FORM

Question 28

What is the Mechanism of Hormonal Action

Answer 28

On the target cell, the hormone in combination
with the receptor cells act by any of the following
mechanisms:
1. Alternating the permeability of cell membrane
- Neurotransmitter substances

2. Activating the intracellular enzyme
   - Protein hormones & catecholamines
3. Activating the gene
   - Thyroid & steroid hormones

Question 29

Mechanism for Regulation of Hormone Effects

Answer 29

MECHANISMS

• Hormone Secretion
• Hormone Receptors

Question 30

Differentiate Negative from Positive Feedback

Answer 30

NEGATIVE FEEDBACK
?Products inhibit Precursors?
More common
E.g. Cortisol inhibiting ACTH Secretion from the Pituitary

POSITIVE FEEDBACK
?Products stimulate Precursors?
Rare, exploding
E.g. surge of LH before ovulation, Oxytocin during deli-very and lactation

Question 31

Differentiate Down-Regulation from UP-Regulation of Receptors

Answer 31

DOWN-REGULATION OF RECEPTORS
Decrease in:
 - Receptor Number 
 - Receptor Affinity
 - E.g. in the uterus, progesterone down-regulates its own receptor and the receptor for estrogen

UP-REGULATION OF RECEPTORS
Increase in:
 - Receptor Number 
 - Receptor Affinity
 - E.g. in the ovary, estrogen up-regulates its own re-ceptor and that of LH

Question 32

3 types of Hormone Interactions

Answer 32

Synergistic Effects | Permissive Effects | Antagonistic Effects

Question 33

Differentiate 2 Types of Synergistic Effec ts (Additive & Complementary)

Answer 33

• ADDITIVE EFFECTS
  
  • E.g. Epinephrine & NE effects on the heart
• COMPLEMENTARY EFFECTS
  
  • E.g. FSH & Testosterone effects on spermatogenesis

Question 34

Differentiate Permissive Effects vs Antagonistic Effects

Answer 34

. PERMISSIVE EFFECTS
- E.g. Cortisol has permissive effects on Epi & NE with regards to blood vessels; T3 has permissive effects on Epi with regards to lipolysis

ANTAGONISTIC EFFECTS
- E.g. Estrogen blocking Prolactin effects on the breasts during pregnancy

Question 35

Equal to the rate of disappearance of hormone from the plasma/concentration of hormone in each milliliter of plasma

Answer 35

Metabolic Clearance Rate

Mechanisms: Tissue Destruction, Tissue binding, Bile Excretion, Urine Excretion

Question 36

Hormone&raquo_space; Pituitary target

Answer 36

GnRH >> FSH, LH
CRH >> ACTH (B-LPH)
TRH >> TSH (PRL)
GHRH >> Somatotropin (GH)
PRH >> TRH
PIH >> Lactotrophs (PRL)
MRH >> MSH
MIH >> MSH

Question 37

Where Oxytocin is produced

Answer 37

Paraventricular nuclei

Question 38

Where ADH is produced

Answer 38

Supraoptic nuclei

Question 39

Where hormones are stoed

Answer 39

Posterior Pituitary