2 - Female Reproductive System

Question 1

What are the major roles o Estradiol and Progesterone in the female reproductive system?

What are roles of Inhibin A and B?

Answer 1

• Act directly on the reproductive tract to regulate its functions
• Feedback on Anterior Pituitary and Hypothalamus that regulate gonadotropin release
• Inhibin A and B which inhibit FSH release by Anterior Pituitary

Question 2

What is the primary source of estrogens in the non-pregnant adult?

What are the major estrogens?

What forms the basis of pregnancy tests?

Answer 2

The maturing follice

• Estradiol (E2) - Principle ovarian estrogen, most potent
  
  • 99% comes from the ovary
• Estrone (E1) - Weaker than estradiol; formed from estradiol by peripheral conversion via aromatase activity in fat via estrogen conversion of androgens
• Estriol (E3) - Weak androgen; in non-pregnant woman, derived from metabolism of E1/E2;
  
  • Clinical: Measured in pregnancy; the placenta synthesizes high E3

Question 3

What are the two cell types present in ovarian follicle cells to synthesize estrogen?

What hormones regulate this?

What are their principle secretory products?

Enzymes at each cell?

Answer 3

• Thecal Cells - Regulated by LH - Androstenedione
  
  • ​Close proximity to blood vessels;ample supple ofLDL Cholesterol for steroid hormon synthesis
  • Site of enzymes for androgen synthesis
  • Do NOT possess aromatase activity; can NOT convert andogens to estrogens
  • Androstenedione is primary androgen secreted by Thecal Cells
• Granulosa Cells - Regulated by FSH - E2 Primary Product
  
  • ​During Follicular Phase of ovarian cycle, granulosa cells have limited access to LDL cholesteol (separated from vascular supply)
  • Progesterone production limited during this phase
  • Do NOT have 17a-hydroxylase activity, unable to convert Pregnenolone / progesterone to androgens
  • Have high levels of aromatase/17B-HSD activity; can convert androgens from thecal cells to estrogens

Question 4

What reeptors are loacted on thecal cells?

What pathway does thi activate?

Answer 4

LH Receptors induce androgen biosynthesis

Activate cAMP Signaling pathways within cell

Question 5

What receptors are located on Granulosa cells?

What pathway is activated?

Answer 5

FSH recptors activate aromatase activity

Activate cAMP signaling pathway

Question 6

What is promoted by progestins?

What are the major progestins?

What is the principle source of progesterone in the non-pregnant adult?

Answer 6

• Progestins are steroids that promote gestation
• The major progestins are:
  
  • Progesterone (most potent!)
  • 17a-hydroxyprogesterone
• The principle source of progesterone in the non-pregnant adult is the corpus luteum

Question 7

What is the principle circulating androgen in women?

What is its source?

What are other circulating androgens?

Answer 7

The principle circulating androgen in women is testosterone

Half is derived from peripheral conversion of steroid precursors

Half is produced by ovaries and adrenals

Other circulating androgens: Dihydrotestosterone, Androstenedione, DHEA, DHEA-sulfate

Question 8

***Reproductive Cycle in Non-Pregnant Women***

Follicular Phase

Ovulatory Phase

Luteal Phase

Answer 8

• Follicular Phase
  
  • Begins w/onset of menstrual bleeding
  • Variable in length
  • Corresponds to proliferative phase of endometrial cycle
• Ovulatory Phase (~36 hrs)
• Luteal Phase
  
  • Constant Length (13-14 days)
  • Corresponds to secretory phase of endometrial cycle
  • Ends with onset of next menses

Question 9

What is developing during the follicular phase?

What is the primary hormone?

What does it correspond to in the endometrial cycle?

Answer 9

• During the follicular phase the preovulatory follicle develops within the ovary
• Estradiol is primary hormone
• Corresponds to Menstrual / Proliferative phases of endometrial cycle

Question 10

What does the ovulatory phase culminate in?

What are the primary hormones of the Luteal Phase?

What phase of the endometrial cycle correspond to?

What does it end with?

Answer 10

Ovulation

During the Luteal Phase, the Corpus Luteum secretes Progesterone/Estradiol

Luteal Phase corresponds to the secretory phase of th endometrial cycle

Ends with onset of next menses

Question 11

What is the functional unit of the ovary?

What are its main actions (4)

Answer 11

The follicle is the functional unit of the ovary

1. Sustains the oocyte
2. Produces hormones to regulate reproductive function
3. Spot of endocrine regulation to regulate hormone production and promote ovulation
4. Differentiates into endocrine structure, Corpus Luteum after ovulation is complete

Question 12

What are Primordial Follicles?

What type of junctions are formed?

What is the blood supply?

What stage of division is the oocyte arrested in?

Answer 12

Primary Oocyte surrounded by a single layer of poorly differentiated pregranulosa cells

Pregranulosa Cells form Gap Junctions with each other and the oocyte

The primordial follicle has no independent blood supply

Meiosis I - Prophase

Question 13

When does primordial follicle formation begin?

What is their status for the duration of a woman’s life?

Answer 13

In the fetus, complete by 6 months old

Primordial Follicles remain dormant in the ovary until recruited to resume growth and development

Question 14

What occurs in the ovaries in the absence of gonadotropin?

What is the main signaling mechanism for this?

What is the status before puberty?

Answer 14

Growth of Primordial Follicles, involves intraovarian signaling

Prior to puberty, follicular growth occurs but the process is arrested in an early stage of development, and the follicle undergoes atresia

Question 15

At what stage does a primordial follicle become a primary follicle?

Answer 15

Formation of the Zona Pellucida; as the granulosa cells become cuboidal and begin to undergo mitosis.

Oocyte and granulosa cells increase in size.

Question 16

What is the next stage of development for primary follicles?

What is this next stage surrounded by?

What surrounds this layer, and what induces its formation?

Answer 16

Growth of primary follicles leads to Preantal Follicles

In Preantral follicles, the oocyte is surrounded by multiple layers of granulosa cells enclosed within the basal lamina.

Surrounding the basal lamina is a thecal layer formed from stromal cells in response to paracrine factors produced by the granulosa cells

Question 17

What proteins are secreted during the formation of mature preantral follicles?

What type of receptors do granulosa cells begin to express?

Answer 17

• Oocyte grows and secretes the following into the Zona Pellucida:
  
  • ZP1
  • ZP2
  • ZP3
• These provide species specific binding sites for sperm cells
• Continued secretion of paracrine factors to stimulate:
  
  • growth/differentiation of granulosa cells (causing formation of multilayered structure)
  • Formation of thecal layer from stromal cells
• Granulosa cells begin to express FSH and Estrogen Receptors, but still depend on paracrine factors to support growth!

Question 18

What do follicles release to promotes formation of vascular supply?

What occurs in the granulosa layer wrt vascularization?

Answer 18

Follicles release angiogenesis factors that promote formation of a vascular supply

Granulosa Layer remains avascular until after ovulation

Question 19

What do early antral follicles become responsive to?

Are they dependent on this?

How does thi change with larger antral follicles?

Answer 19

Early antral follicles become responsive to the growth-promiting effects of Follicle Stimulating Hormone (FSH)

No, considered independent of FSH for survival

Larger antral follicles become highly dependent on FSH for survival

Question 20

What enhances the steroidogenic capacity of rapidly growing large antal follicles?

What do thecal cells express, and what is their major secretory product?

What does FSH stimulate expression of?

What secretion increases as follicle matures?

Answer 20

Responsiveness to gonadotropins

1. Thecal Cells express LH receptors and enzymes for steroidogenesis, major secretory product is androstenedione
2. FSH stimulates expression of aromatase in the granulosa cell, enables conversion of androgens to estrogens
3. The gonadotropin sensitive thecal and granulosa compartments of follicle form functional unit capable of estrogen production in response to LH / FSH; as follicle matures the capacity to secrete estrogens increases

Question 21

What populations of cells emerge from granulosa cells? (2x)

What becomes the corpus luteum?

What facilitates capture of oocyte by fallopian tubes?

Answer 21

Mural Cells: close contact with Thecal Layer, actively engaged in steroidgenesis; retained after ovulation, differentiate into corpus luteum

Cumulus Cells: Surround oocute; inner cells maintain gap junctions with oocyte; released with oocyte during ovulation and facilitate capture of oocyte by ciliated fallopian tubes

Question 22

What is mainly affected by Atresia?

What is fate of Thecal Cells?

What opposes apoptosis of the follice?

What factors promote atresia?

Answer 22

Oocytes / Granulosa Cells

Thecal cells dedifferentiate and return to pool of stromal interstitial cells

FSH opposes apoptosis of the follice

TNFa, Androgens, IL-6 all promote atresia

Question 23

What are four major changes in the growing preantral follicle?

What stimulation do early antral follicles respond to? What is their growth ultimately independent of though (early)?

Answer 23

1. Thecal Cells express LH Receptors and steroidogenic enymes
2. Granulosa Cells acquire receptors for FSH and Estrogens
3. FSH induces aromoatase activity in granulosa cells
4. Early antral follices respond to FSH Stimulation–however follicular growth is still gonadotropin independent

Question 24

What is the process of cyclic recruitment?

How many survive?

What does this become?

What happens to the remainder that aren’t matured?

***What is survival of follicles at this stage dependent on?***

Answer 24

~20 days before ovulation, cohort of growing antral follicles is recruited for final stage of rapid growth

Usually only one follicle survives as the dominant follicle, to become a mature graafian (preovulatory) follicle

They undergo atresia

Survival of follicles that enter this stage of rapid growth is dependent upon FSH

Question 25

When does Cyclic Recruitment occur?

What is the dominant follicle selected?

What indicates a dominant follicle has been selected?

When does ovulation occur?

Answer 25

Late Luteal Phase of preceding cycle

During early follicular phase of current cycle

Dramatic increases in estradiol indicates a dominant follicle is present

~ 10-14 days after follicle selected

Question 26

What is the role of FSH in the selection process of cyclic recruitment?

What does FSH stimulate? (2x)

What inhibits FSH release and what is the major effect of this?

What receptors does FSH induce in granulosa cells? What major effect does this have?

Answer 26

1. FSH Stimulates granulosa cell proliferation and estradiol (E2) synthesis
2. E2 works synergistically with FSH to promote granulosa cell proliferation
3. Estradiol and inhibin have negative feedback effect on FSH release by anterior pituitary (in this way dominant follicle blocks development of other follicles, it has FSH supply of its own)
4. FSH induces expression of LH receptors in granulosa cells, so they are able to respond to LH surge; E2 enhances the action of FSH/LH receptor induction

Question 27

How does the dominant follicle grow in presence of declining levels of FSH?

5 Reasons:

Answer 27

1. The rapidly proliferating dominant follicle has more FSH receptors (FSHR) than the other follicles that were recruited at the same time–due to increased granulosa cell population
2. Dominant follicle produces growth factors, such as IFG-1; locally produced, enhances FSH stimulus
3. FSH induces expression of LH receptors; enhanced by E2
4. Accumulation of FSH in antral fluid gives higher FSH concentration in follicular fluid
5. Better developed vascular supply

Question 28

What is increased by the dominant follicle as it approaces the ovulatory phase?

What is the stigma?

What drives the cumulus expansion? What does this enable?

Answer 28

Antral Fluid

Stigma - Poorly vascularized bulge caused by pressure of the follicle against the surface of the ovary

Cumulus Expansion - Secretion of ECM components (hyaluronic acid) in response to LH Stimulation causes increase in size of cumulus-oocyte complex; enables capture by fallopian tubes

Question 29

What do thecal and granulosa cells release in response to LH stimulation? What does this catalyze?

Answer 29

Proteolytic Enzymes catalyze the breakdown of ECM proteins in the thecal layer and surface of ovary at stigma

This gently releases cumulus-oocyte

Question 30

What is the signal required to induce ovulation?

What triggers this?

What cells respond to this?

Answer 30

LH Surge

Triggerd by positive feedback of estradiol on the pituitary and hypothalamus

Granulosa cells are able to respond to the LH surge because they start expressing LH receptor during the mid-follicular phase in response to FSH stimulation

Question 31

What are the specific actions of LH on the preovulatory follicle?

Answer 31

1. Induces release of inflammatory cytokines (TNF-a)
2. Induces expression of metalloproteinase enzymes that beaks down wall of follicle, epithelial surface of the ovary at Stigma
3. Induces expression of Cyclooxygenase-2 (COX-2) and progesterone receptors in granulosa cells
4. Resumption of meiosis; release of growth factors; complete meiosis and extrude polar body (arrested at Metaphase II by cytostatic factor until fertilization)
5. Cumulus Expansion

Question 32

What is the role of COX-2, and what is a clinical example of its inhibition?

Answer 32

COX-2 catalyzes the formation of prostaglandins from arachidonic acid

COX-2 inhibitors have been shown to inhibit ovulation

Question 33

How does LH alter the endocrine profile of the ovary?

Answer 33

LH Promotes reorganization of the postovulatory follicle into the corpus luteum

Question 34

What is the basis for Corpus Luteum formation?

What is the fate of granulosa and thecal cells?

Answer 34

The Corpus Luteum is formed from remnants of the ruptured follicle

Granulosa and Thecal cells differentiated into granulose-lutein and theca-lutein cells

Question 35

What occurs to the vascular supply of granulosa-lutein cells?

What receptors do they posses, and key enzyme are they able to synthesize?

What does LH induce in these cells?

Answer 35

Granulosa-Lutein cells become vascularized and are able to obtain cholesterol from circulating LDL / HDL

Express LH / FSH receptors and synthesize Aromatase Enzyme

LH stimulates ezpression of enzymes that promote conversion of cholesterol to progesterone

Question 36

How does LH promote angiogenesis in granulosa-lutein cells?

How can Granulosa-Lutein Cells obtain cholesterol from circulating LDL / HDL?

Answer 36

Secretes angiogenesis factors such as Vascular Endothelial Growth Factor (VEGF)

- - -

1. LH induces the breakdown of the basal lamina; this allows the newly formed vascular supply of the corpus lutein to vascularize the granulosa-lutein cells

2. LH induces the expression of LDL / HDL Receptors

Question 37

What does LH induce in the formation of the Corpus Luteum?

Why do granulosa-lutein cells not complete androgen synthesis?

What does progesterone production peak, and what does this correspond to?

Answer 37

LH induces the expression of StAR and 3B-HSD, stimulating conversion of pregnenolone to progesterone in granulosa-lutein cells

-

They do not express enzymes that promote androgen synthesis, so they release progesterone

-

Progesterone production peaks at the mid-luteal phase; = the blastula entering the uterine cavity in pregnant woman

Question 38

What enzyme is synthesized in granulosa-lutein cells via LSH/FSH receptors?

What signaling mechanisms does this use?

Answer 38

Aromatase Enyme

cAMP dependent mechanism

Question 39

What does estrogen production by the corpus luteum require?

(Cell types and actions of each)

Answer 39

Both types of Lutein Cells!

1. Theca-lutein synthesize androgens (LH stim)

2. Granulosa-lutein convert these to estrogens, and secrete Inhibin A

Question 40

If pregnancy does not occur by day 9, what is the fate of the corpus luteum? What is rapidly declining at this stage?

If preganncy does occur, what maintains the corpus luteum?

Answer 40

Luteolysis; rapid decline in progesterone synthesis, due to decline in LH production

Human Chorionic Gonadotropin (hCG)

Question 41

What are the hormonal changes (H-P-Ovarian) in the early follicular phase?

How do the low levels of estradiol being produced affect FSH?

Answer 41

FSH promotes granulosa cell proliferation

FSH / LH stimulate estradiol synthesis

Low levels of estradiol being produced has a negative feedback on FSH release

Question 42

What are the hormonal changes (H-P-Ovarian) in the late follicular phase?

Answer 42

Dramatic increase in circulating levls of estradiol due to rapid increase in number of granulosa cells in dominant follicle and stimulatory of FSH / LH

As estradiol rises it acts on hypothalamus to increase GnRH pulse generator frequency and on pituitary to increase gonadotrope sensitivity GnRH stimulation (Positive Feedback Effect of Estradiol)

Surge in LH triggers events in follicle that promote ovulation

Question 43

What are the hormonal changes (H-P-Ovarian) in the late Luteal Phase?

Secretory products?

Feedback results?

Answer 43

LH Promotes the development and secretory activity of corpus luteum

Secretory products of corpus luteum include progesterone, estradiol, inhibin A

Progesterone - Negative feedback on gonadotropin release at hypothalamus/pituitary

Estradiol/Inhibin A - Negative feedback on anterior pituitary

FSH will increase as corpus luteum declines; coincides with start of rapid growth phase of cohort of follicles for next menstrual cycle

Question 44

What are the hormonal changes (H-P-Ovarian) due to circulating inhibin levels?

(Clinical Uses)

Answer 44

• Inhibin B
  
  • Clinical marker to assess FSH mediated granulosa cell function
• Inhibin A
  
  • Clinical marker to asses LH mediated corpus luteum function

Question 45

Where are the endometrium changes restricted to during the menstrual cycle?

What strongly influences these changes?

What is the Stratum Basalis involved in?

Answer 45

Upper 2/3, Stratum Functionalis

Strongly influenced by Ovarian Hormones

Stratum Basalis involved in regenerating endometrium after menstruation

Question 46

Endometrium Proliferative Phase

Hormone changes?

Action of estradiol?

Answer 46

Begin several says after start of Follicular Phase

Estrogens increasing

Principle action of Estradiol is to restore endometrial lining

Question 47

Endometrium Proliferative Phase

How does estradiol restore the endometrial lining?

Answer 47

1. Causes dramatic increase in thickness of endometrium by increasing proliferation of superficial epithelial/stromal cells; mediated by growth factors produced by stromal cells
2. Induces growth of uterine glands, elongation of spiral arteries
3. Increases expression of progesterone receptors

Question 48

Endometrium Secretory Phase

Ovarian cycle phase?

Hormones secreted?

Answer 48

Coincides with Luteal Phase of ovarian cycle

Progesterone/Estradiol secreted by Corpus Luteum

Question 49

Endometrium Secretory Phase

Major role of Progesterone?

What capacity is enhanced in the endometrium?

What occurs to spiral arteries/capillaries?

What is the net effect?

Answer 49

• Progesterone inhibits epithelial cell proliferation and regulates actions of estradiol
• Promotes differentiation of endometrium and enhance secretory capacity
  
  • ​Spiral Arteries become more coiled, capillaries increase in permeability
  • Stromal cells enlarge
  • Net Effect: Provide cnutrients for the unattached embryo and prepare endomtrium for implantation and pregnancy

Question 50

Endometrium Menstrual Phase

What characterizes this phase?

What causes this to occur?

Answer 50

If implantation does not occur, the uterus enters the menstrual phase; characterized by endometrial ischemia, tissue necrosis, and shedding of endometrium

- - -

Sudden drop in estrogen/progesterone at end of luteal phase

Question 51

Endometrium Menstrual Phase

What is the vasomotor response of the spiral arteries, and what causes this?

What is released in response to progesteron withdrawl?

What aids expulsion of desquamated tissue?

Answer 51

Vessels undergo progressive rhythmic contractions and relacations; induced by Prostraglandin F2a (PGF2a)–result is ischemia

Matrix metalloproteinases are released in response to progesterone withdrawal

Uterine Contractions, induced by PGF2a, helps expel desquamated tissue

Question 52

What are the hormonal changes associated with puberty in girls?

Answer 52

Trigger - Increase in pulsatile release of GnRH by hypothalamus

FSH / LH increase (FSH faster)

17B-Estradiol increases (promotes bone growth, breasts, female reproductive tract maturation)

Question 53

What effect does estrogen have on progesteron receptors?

What are the cardiovascular effects of estrogens?

How does estrogen effect the skeletal system? Clinical?

Answer 53

Estrogens stimulate progesterone receptor synthesis

Estrogens have vasodilatory effect, and are nongenomic (do not change gene expression); exert longer-term effects, prevent atherosclerosis–these involve gene changes (genomic)

In the skeletal system, estrogens inhibit bone resporption; **Clinical: After menopause may need estrogen replacement therapy to attenuate age-related bone loss**

Question 54

What hormonal changes are associated with menopause?

Symptoms?

Answer 54

• Hormonal Changes
  
  • Decreased estrogens (estrone)
  • Increased FSH/LH
  • Increased GnRH
• HAVOC
  
  • H - Hot Flashes
  • A - Atrophy
  • V - of Vagina
  • O - Osteoperosis
  • C - Coronary Artery Disease

Question 55

**What estrogen receptors have been identified?**

Answer 55

• ERa , ERb
• Can induce genomic or nongenomic effects (steroid mechanism)

Question 56

What are major hormonal hallmarks at the following stages?

LH and puberty?

Gonadotropin release and reproductive years?

LH / FSH ratio and reproductive years?

Gonadotropin and menopause?

Answer 56

• LH displays nocturnal release associated with puberty
• Gonadotropin shows cyclic pattern during reproductive years
• LH / FSH ratio changes during reproductive years (LH increase, FSH decrease @ puberty)
• LH / FSH increase w/menopause; flip back vs reproductive years