ME04 - Anterior Pituitary

Question 1

If the infundibulum is transsected what happens?

Answer 1

If transsected, there will be temporary cessation&raquo_space; neurons then regenerate but with malfunctions (more or less)

Question 2

Feedback Control of AP Hormone Secretion

Answer 2

Stimuli&raquo_space; Hypothalamus&raquo_space; Anterior Pituitary&raquo_space; Target Organ&raquo_space; Tissues

Question 3

Causes growth of all or most body tissues
Promotes differentiation of specific cell types (e.g., bone growth cells)
Single chain; 191 AA residues _

Answer 3

Growth Hormone (Somatotropin)

Question 4

Prequisite of Growth Hormone

Answer 4

Sufficient insulin activity & CHO

Question 5

Growth Hormone is stimulated by:

Answer 5

Mitosis
Cell size
Cell number

Question 6

Type of secretion of GH

Answer 6

Pulsatile secretion

Question 7

Why is GH Relatively low during the day?

Answer 7

_s during first 2 hours of deep sleep
Regular nocturnal peak: 1 hour after Stage 3 or 4 deep
sleep onset

Question 8

GROWTH HORMONE INFO:

Answer 8

Preceded by nocturnal plasma GHRH peak
Biologicalt1_2=20mins
- Serum GH level varies widely
- GH secretion in women > men (highest before ovulation)
- Rate: highest in late puberty, neonate; lowest in older/obese adults, hypothyroidism, Type 2 DM
- Average plasma concentration - 5-20 years old: 6 ng/ml
- 20-40 years old: 3 ng/ml

Question 9

Lifetime Pattern of GH Secretion

Answer 9

40-70 years old: 1.6 ng/mL

Question 10

Stabilization of 24-hour pulsatile GH secretion rates (200-600 _g/day)
Approximate those in post-pubertal young adults

Answer 10

Pre-puberty GH secretion

Question 11

Growth Hormone in Puberty

Answer 11

1.5-3-fold_pulsatileGHsecretion
- With proportionate _ in plasma insulin-like growth fac- tor-I (IGF-I)
- Physiological GH hypersecretion driven by onset of _ sex-steroid hormones
- Correlatewithrateof_inheight
- GHRH response: tall adults > ave height
- Final height (FH) may partly be determined by inherent GH secretory capacity
- In normal children with idiopathic short stature - GH treatment significantly _ FH in a dose-dependent man- ner
- Mean gain = 1.3 SDS (8 cm) and a broad range of re- sponse from no gain to 3 SDS compared to a mean gain of 0.2 SDS in the untreated controls. (Al- bertsson-Wikland, 2008)+A12

Question 12

Growth Hormone in adulthood

Answer 12

Starting 18-25 y/o GH secretion _s up to pre-pubertal level (

Question 13

Growth Hormone in Aging

Answer 13

_ GH secretion - Correlated to
- _ total body & visceral fat %
- Muscle wasting
- _ physical fitness
- _ [testosterone] or menopause
- Partly responsible for: - _leanbodymass
- _ protein synthesis
- _metabolicrate
- _adiposetissue
- Evidence: (Giustina & Veldhuis, 2008)
- Excessive somatostatin release
- _/deficiency GHRH secretion in aging human

Question 14

Other names for Growth Hormone

Answer 14

Protein anabolic hormone
Lipolytic hormone
Diabetogenic hormone
Growth promoter hormone _

Question 15

Relate GH to Linear Bone Growth

Answer 15

GH&raquo_space; INC chondrocytic & osteogenic cell reproduction; INC protein deposition; Chondrocyte - osteogenic cells&raquo_space; Chondrogenesis/Osteogenesis&raquo_space; Linear Bone Growth

Question 16

Linear Bone Growth does not happen when the epiphyseal plates close. True or False?

Answer 16

TRUE

Question 17

GH&raquo_space; Unfused Epiphyses results to:

Answer 17

Gigantism

Question 18

GH&raquo_space; Fused Epiphyses results to:

Answer 18

Acromegaly

Question 19

Effect of Growth Hormone on Protein Metabolism (ANABOLIC)

Answer 19

Stimulates AA uptake & CHON deposition
- _proteinbreakdown
- Effect begins in minutes
- Stimulates collagen synthesis+A19

Question 20

Protein metabolism produces what products

Answer 20

(+) Nitrogen balance _BUN&AA _excretionofAA4-hydroxyproline

Question 21

Effect of Growth Hormone on Electrolyte Metabolism

Answer 21

_ GI absorption of Ca2+
_ Na+ and K+ excretion most probably due to diversion from kidneys to growing tissues (+) P balance; _ plasma P

Question 22

Effect of Growth Hormone on Carbohydrate Metabolism

Answer 22

Normal GH level needed to maintain normal pancreatic islet function&raquo_space; decreased insulin if no GH | DEC CHO use&raquo_space; Diabetogenic

Question 23

GH-induced insulin resistance/hyperglycemia results to:

Answer 23

DEC Glucose uptake by tissues| INC insulin secretion | INC hepatic gluconeogenesis

Question 24

Effect of Growth Hormone on Fat Metabolism

Answer 24

Lipolytic
_ FA mobilization & use for energy
_ FA to Acetyl CoA conversion
_ FFA may contribute to GH-induced insulin resistance
EXCESSIVE GH&raquo_space; Large quantities of fat metabolized&raquo_space; Liver&raquo_space; Ketosis/Fatty Liver

Question 25

GH promotes diabetogenic state. True or False

Answer 25

TRUE

Question 26

Summary of GH Actions

Answer 26

_ protein synthesis rate in most body cells
_ Adiposity:
_ lipolysis / FA mobilization from adipose tissue _ FA in blood
_FA use as fuel
_ glucose uptake
_ linear growth
_ organ size & function
_lean body mass

Question 27

Relate how GH&raquo_space; Adipose Tissue&raquo_space; DEC Adiposity

Answer 27

GH -> Adipose Tissue&raquo_space; _ glucose uptake (hyperglycemic hormone)
_ lipolysis&raquo_space; _ adiposity

Question 28

Relate how GH&raquo_space; Liver&raquo_space; Facilitation of GH effect on:
organs (size & function) muscle (body mass) chondrocytes (linear growth)

Answer 28

GH -> Liver&raquo_space; _ RNA synthesis
_ protein synthesis _ gluconeogenesis _ IGF/somatomedin&raquo_space; Facilitation of GH effect on: organs (size & function) muscle (body mass) chondrocytes (linear growth)

Question 29

Relate how GH&raquo_space; Muscle&raquo_space; INC lean body mass

Answer 29

GH -> Muscle&raquo_space; _ glucose uptake _ AA uptake
_ protein synthesis&raquo_space; _ lean body mass

Question 30

Relate how GH&raquo_space; Bone, heart, lung, kidney,pancreas, intestines, glands, skin, connective tissue&raquo_space; INC Organ Size & Function

Answer 30

GH -> Bone, heart, lung, kidney, pancreas, intestines, glands,
skin, connective tissue&raquo_space; _ protein synthesis _ RNA & DNA synthe- sis _ cell size and number&raquo_space; _ organ size & function

Question 31

Relate how GH&raquo_space; Chondrocytes&raquo_space; INC Linear Growth

Answer 31

Chondrocytes&raquo_space; _ AA uptake _ protein synthesis _ RNA & DNA synthesis _ collagen & chondroitin sulfate _ cell size & number
» _ linear growth

Question 32

Mediate action of GH on chondrocytes & linear growth, pro- tein metabolism & organ size, and lean body mass
Polypeptide growth factors
Secreted by liver & other tissues

Answer 32

Somatomedins (Insulin-like Growth Factors I & II)

Question 33

Types of Somatomedins (Insulin-like Growth Factors I & II)

Answer 33

IGF-I (Somatomedin C) - skeletal & cartilage growth
- Increases in parallel with GH _
- Both GH- & insulin-dependent _
- Lower in old age: angina pectoris, myocardial infarc- tion, atherosclerosis _
- Earlier death in aging men with low levels

IGF-II fetal growth regulator; increased by PRL _

GH & somatomedins can act both in cooperation and independently to stimulate pathways that lead to growth _

Question 34

Factors that can STIMULATE GH SECRETION

Answer 34

DEC glucose, Stress (Hypoglycemia, Anesthesia, Surgery, Trauma, Infection, Fever, Exercise, Blood Extraction), NTs: Dopamine, Ach, Serotonin, Norepinephrine

Question 35

Excessive activation of somatotropes or (+) acidophilic pituitary tumors
Excessive GH before puberty/ fusion of epiphyses with shaft

Answer 35

Gigantism - Rapid growth of all body tissues

Question 36

Relate excessive GH results to Hyperglycemia

Answer 36

Eventual degeneration of overactive pancreas - DM development

Question 37

Factors that can INHIBIT GH SECRETION

Answer 37

Somatostatin (INC Glucose, Free FA), Somatomedins, GH, Obesity, Cortisol, Pregnancy, Senescence

Question 38

How is Growth Hormone Regulated?

Answer 38

(Long-term)
» Long-term nutritional state of tissues (protein nutrition level)
» Rate of GH secretion is increased by nutritional deficiency or excess tissue need for cellular proteins
&raquo_space; Synthesis of new proteins & conserving existing ones

Question 39

Management for Panhypopituitarism

Answer 39

Microsurgical tumor removal - Pituitary gland irradiation

Question 40

Excessive GH after puberty / epiphyseal fusion with shaft

Answer 40

Acromegaly

Question 41

Characteristics of Acromegaly

Answer 41

Thicker & enlarged bones
- Hands, feet
- Membranous bones (cranium, nose, forehead, supraor- bital ridge, mandible, vertebrae)
Continued growth of soft tissues (tongue, liver, kidneys)
Prognathism, huge brows, huge tongue, large hands with
spade fingers
Deep guttural voice
Oily skin
Joint deformities or frank arthritis
Secondary DM
Sleep apnea
Kyphosis

Question 42

How is Acromegaly has INC coronary risk

Answer 42

Poor glucose tolerance
- Hypertension
- Lipid problems

Question 43

Life of person with Acromegaly is shorter by average 10 years (vs. normal person), true or false?

Answer 43

TRUE

Question 44

How is Acromegaly treated

Answer 44

Normalized by treatment of adenoma (surgery, oc-
treotide, radiation)

Question 45

Growth Hormone Deficiency

Answer 45

If adult onset typically with other AP hormone deficiencies If childhood onset dwarfism

Question 46

_ secretion of all AP hormones
May be congenital, slowly or suddenly develop

Answer 46

Panhypopituitarism

Question 47

Causes of Panhypopituitarism

Answer 47

Causes:
- Pituitary tumor
- Suprasellar cysts
- Enlarged Rathkes pouch remnants
- Pituitary infarction & necrosis from post-partum hemor- rhage (Sheehan syndrome)

Question 48

Manifestations of Panhypopituitarism:

Answer 48

Hypothyroidism (e.g., lethargy)
Depressed glucocorticoid production by adrenals (e.g., weight gain)
Suppressed gonadotropic hormone secretion (e.g., lost sexual function)
Most signs & symptoms treatable by adrenocortical & thy- roid hormones

Question 49

Causes of (Pituitary) Dwarfism

Answer 49

Panhypopituitarism during childhood
- Hypothalamic dysfunction, GHRH deficiency
- Pituitary destruction, GH deficiency Isolated GH deficiency
- Biologically incompetent GH
- GH receptor deficiency
Unresponsive GH receptor (Laron dwarf/ GH insensitivity)
Hereditary inability to form somatomedin C (IGF-I) (Afri-
can pygmy; Levi-Lorain dwarf)

Question 50

Manifestations of Dwarfism

Answer 50

Proportional body parts
- Short stature
- Greatly _ development rate
- Does not go through puberty
- Insufficient gonadotropic hormones for sexual matu- ration
- IfonlyGHdeficient(1/3)_maturesexually&repro- duce

Question 51

Human GH synthesized by E. coli
if purely GH deficiency_completely treatable if given early

Answer 51

Dwarfism & replacement therapy in growth-deficient children

Question 52

2nd X chromosome in females either absent or deformed _growth & development problems

Answer 52

Turner’s syndrome

Question 53

Use of GH for HIV

Answer 53

To treat muscle wasting

Question 54

Use of GH as Anti-aging

Answer 54

Increased protein deposition, esp. in muscles
_fatdeposits
Feeling of invigoration of energy
GH + exercise: _ type II muscle fibers in elderly

Question 55

Use of GH as physical performance enhancer in SPORTS

Answer 55

Used for perceived anabolic effects on muscle growth & recovery (e.g., in weight lifting, body building, football, etc.)
- Combined with anabolic steroids, erythropoietin
- Studies: no _ muscle size or strength after hGH injection

Question 56

Cells and Hormones in the Anterior Pituitary Gland

Answer 56

Corticotrope ACTH CRH Adrenal, Adipose,&raquo_space; Cortisol
Somatotrope GH/Somatotropin GHRH,GHIH All tissues&raquo_space; IGF-I
Gonadotrope FSH, LH GnRH Gonads&raquo_space; Estrogen, Progesterone, Testosterone, Inhibibin

Lactotrope PRL PIH Breast, Gonads&raquo_space; None
Thyrotrope TSH TRH Thyroid Gland&raquo_space; Tri-iodothyronine