reproduction - F repro pt 2

Question 1

Primary amenorrhea – what is it, and what are common causes

Answer 1

Absence of menses in phenotypic female by age 17

Causes:
Disorders of sexual differentiation such as turner syndrome (XO), cmplete androgen resistance (XY), and hormonal disorders in ovaries, , adrenals, thyroid, HPA axis

Question 2

Secondary amenorrhea - what is it and what are common causes (as well as others)

Answer 2

Cessation of menses for >6 months
Common causes: Pregnancy, lactation, and menopause
Others: Prolactinoma, panhypopituitarism

Question 3

Oligomennorrhea – Common causes , and some other causes

Answer 3

Infrequent periods, cycle lengths >35 days
Changes due to functional abnormalities in CNS mechanisms that regulate GnRH release including stress and illness
Changes in body fat composition, intense exercise, extreme weight loss , anorexia nervosa - no consistent changes in plasma gonadotropins or ovarian steroids

Question 4

What is clomiphene

Answer 4

First used to treat oligomenorrhea; blocks estrogen receptors in brain; makes it useful as a fertility drug because induces HPG axis from lack of negative feedback; induces ovulation in PCOS

Question 5

Dysmenorrhea

Answer 5

Painful menses related to uterine contractions ; main involve pelvic pain radiating to back, thighs, nausea, vomiting, and diarrhea; Caused by PG synthesis which is promoted by E2 followed by P4.

Question 6

What do Prostaglandins released in menses cause?

Answer 6

Uterine contractions; may be severe enough to cause ischemia and pain

Causes dysmenorrhea
(single most common cause of female work/school absenteeism, treated with oral contraceptives and PG synthesis inhibitors)

Question 7

Premenstrual syndrome and premenstrual dysphoric disorder

• when does it occur in ovarian cycle?
• what is the result?
• how is it treated

Answer 7

Occurs in late luteal phase
Both physical and behavioral symptoms that interfere with normal life; very normal (this is PMS, so irritability, bloating, etc)
Treated with SSRi’s and oral contraceptives to suppress ovulation

Question 8

Hirsutism

• What is it?
• Common causes

Answer 8

Inappropriate heavy hair growth in androgen sensitive areas

Excessive androgen production by adrenals (ex. adrenal hyperplasia or Cushing Syndrome) or intake of exogenous androgens and idiopathic increases in sensitivity to androgens
Common symptom of PCOS

Question 9

Virilization

Answer 9

Includes hirsutism and more pronounced evidence of androgen stimulation such as clitoral hypertrophy, deepening voice, temporal balding, male pattern skeletal muscle development (excess androgen production is a big cause)

Question 10

PCOS

• What causes it?
• What is the result of this? Including: Weight management, and what’s going on with the generation of those ovarian cysts?

Answer 10

Root cause - insulin resistance and obesity (caused by and causes OF PCOS)

High insulin –> high androgen production –> causes infertility
in addition:Increase in conversion of estrogens due to excess androgens, which leads to excessed weight gain

Follicle development is imaired; ovulation is not completed and follicles degenerate into cysts. Overall, ovary doubles in size.

Question 11

Symptoms of PCOS

Answer 11

Sleep apnea, menstrual irregularity, acne, besity, decreased HDL and increased TGs, hirsutism

Question 12

Treatments for PCOS

Answer 12

Weight loss, cessation of smoking, metformin (insulin release) - metformin alone is often sufficient to restore fertility.

Clomiphene which helps induce ovulation is also helpful in PCOS cases

Question 13

menopause

Answer 13

Age related cessation of ovulation (happens between 48-52)

Question 14

How do you know you’re entering menopause? What are the hormone sensitivity problems?

Answer 14

Onset frequency of anovulatory bleeding increases and cycles become irregular with gradual diminution of menstrual flow. Sensitivity of follicles to FSH ad LH declines; follicles disappear, ovarian generation of estrogens drop and maintain of lower generations of steroids depend on peripheral conversion of androgen precursors secreted by adrenal glands.

Question 15

After menopause, what is the dominant estrogen?

Answer 15

Estrone

Question 16

Loss of negative feedback from estradiol and inhibin causes what?

Answer 16

3-4x increase in FSH + LH with FSH being greater than LH due to slower GnRH pulsitility; this ratio remains in absence of cyclicity of the ovarian cycle.

Question 17

Symptoms and consequences of menopause (5)

Answer 17

1. Osteoporosis (increase in bone resorption due to less OPG activation from less estradiol and less bone formation)
2. CV disease risk goes up - increase in cholesterol, LDL, and decrease in LDL receptors (increase in risk of atherosclerosis
3. Thinning of vaginal epithelium and decreased secretions
4. decreased breast mass
5. vascular flushing (hot flashes) due to CNS mediated changes in GnRH

Question 18

HRT and post menopausal women - set up of experiment, results?

Answer 18

Two paradigms: Women given conjugated equine estrogen alone OR horse estrogen and progestins (if uterus present)

Found that there was a greater risk of CV, venous thromboembolism, breast cancer, fracture, colorectal cancer, etc. However, later studies have called this into question; particularly becaue many of the women were in later stages of menopause, and people who were in perimenopause had very beneficial outcomes, wehreas those who had it later had negative outcomes

Question 19

Timing hypothesis of HRT

Answer 19

There is a window of opportunity - you must give HRT to menopausal women at the right time

Question 20

What are peak fertility ages

Answer 20

18-25

Question 21

Where does fertilization occur

Answer 21

in fallopian tube – within 24h after ovulation (12-16 days post previous menses)

Question 22

how is gestational age calculated

Answer 22

from first day of last menses

Question 23

What is fetal age

Answer 23

2 weeks less than gestational age

Question 24

When is the best time to get preggo

Answer 24

24h post ovulation for ovum; 48-72h post coitus

Question 25

After embryo implatns into endometrium, what special organ is formed?

Answer 25

placenta

Question 26

What is the function of the placenta

Answer 26

endocrine gland; takes over steroid and protein hormone synthesis to support developing embryo

Question 27

Symptoms of pregnancy follow what?

Answer 27

placenta formation

Question 28

Symptoms of pregnancy

Answer 28

Breast tenderness, fatigue, nausea, absence of menstruation, softening of uterus, sustained elevation of body temperature

Question 29

what is the final stage of gestation?

Answer 29

Parturition

Question 30

What influences Parturition?

Answer 30

fetal and maternal factors

Question 31

Gamete transport – how fast do sperm reach ampula and how long do they live

Answer 31

Reach ampulla within 5 mins, retained 24-48 h

50-100 reach this point

Question 32

What are factors that assist in sperm transport? (5)

Answer 32

1- vaginal secretions become more alkaline
2- uterine contractions and cervical contractions propel sperm forward
3- prostaglandin in seminal plasma induces muscle contractility
4- Seminal “plug” coagulates upon ejaculation
5- vaginal mucus becomes less viscous

Question 33

How many oocytes are released from ovary into peritoneal cavity

Answer 33

One

Question 34

At ovulation, what is released into the surrounding peritoneal cavity?

Answer 34

oocyte and the cumulus oophorus

Question 35

how are sperm and ovum mixed

Answer 35

churning motion of the ampulla wall

Question 36

Where does fertilization usually occur?

Answer 36

In the ampulla - this is where the first stages of embryonic development occur as well. This is the devleopment of the blastocyst

Question 37

What is sperm capacitation?

Answer 37

Functional properties of sperm acquired in female tract that allow for penetration of zona pellucid of egg; poorly understood, thought to include removal or modification of protein coat covering sperm and may involve vagina, uterus, cervix. It makes sperm competent to undergo acrosomal reaction.

Question 38

Acrosomal reaction (3)

Answer 38

1. Sperm binds to ZP3 protein on zona pellucida (glycoprotein)
2. Triggers increased calcium in sperm cell - leads to exocytosis of hydrolytic enzymes
3. Sperm and oocyte membranes fuse - acrosome reacted sperm bind to ZP2 proteins

Question 39

Cortical reaction

Answer 39

Spermatozoon penetration then triggers calcium increase in oocyte, resulting in fusion of cortical granules with plasma membrane. This releases enzymes that harden glycoproteins of zona pellucida This is including exocytosis of sperm internal contents and exocytosis of oocyte’s internal vesicles. The same increase in calcium that triggers the cortical reaction also triggers the end of meiosis II – then the second polar body is released, leaving oocyte with haploid, unduplicated chromosomes. Fusion with male pronucleus leads to zygote formation.

Question 40

What happens as meiosis completes

Answer 40

De-condensation of sperm DNA. Oocyte is released from metaphase II and finishes Meiosis II, second polar body is extruded and the oocyte has haploid, unduplicated chromosomes

Question 41

Transport of blastocyst to uterus - how long does the transfer take, and what does the timing and arrival depend on?

Answer 41

Timing is 3 days, depends on balance effects of progesterone and estrogen

Estrogen - causes constriction of isthmus barring passage of embryo to uterus
Progesterone levels later incleas, promoting myometrium relaxation and transport of blastocyst to uterus

Question 42

What does embryo adhesion require

Answer 42

maternal and fetal factors

Question 43

Fetal factors that support embryo adhesion

Answer 43

Syncytiotrophooblasts secrete adhesive surface proteins such as cadherins and integrins; these factors attach bridging molecules secreted by maternal uterine glands

Question 44

maternal factors that influence embryo adhesion

Answer 44

Uterine glands secrete estrogen dependent substances like osteopontin, which ind to surface proteins secreted by blastocyst; stromal cells of uterus form decidua and begin secreting nutrients for fetus that will develop; stromal structure eventually becomes barrier and acts as endocrine organ

Question 45

What is the decidua

Answer 45

thick layer of modified mucus membrane

Question 46

what is hatching of the embryo

Answer 46

Dissolution of zona pellucida by trophoblast cells

Question 47

what is blastocyst implantation

Answer 47

Trophoblast differentiates into cytotrophoblasts and cyncytioprotoblasts

Question 48

what are cytotrophoblasts doing

Answer 48

Feeder for continually dividing cells (initially)

Question 49

What do syncytiotrophoblasts do?

Answer 49

3 functions Adhesion, invasion, and endocrine functions

Question 50

How far does embryo burrow

Answer 50

completely into endometrium

Question 51

What determines invasion?

Answer 51

balance between decidual cells (defense) and trophoblast migration (offense)

Matrix metalloproteinases from trophoblasts vs inhibitors in the decidual cells; IGF2 is secreted from trophoblasts vs IGF binding proteins from decidua. The balance prevents invasive trophoblasts from penetrating too deeply

Question 52

4 steps of embryo attachment and invasion into endometrium

Answer 52

A. Trophoblast differentiates into cytotrophoblasts and syncytiotrophoblast layers
B. Lacunae filled with maternal blood are formed as syncytiotrophoblast layer increases in size and penetrates deeper
C- implanatation is nearly complete; cytotrophoblast cells begin to form primary villi, which are covered by layer of syncytiotrophoblast cells
D- Implantation is complete; embryo fully invades endometrium, extraembryonic mesoderm forms inner layer of villi (secondary villi) - mesoderm will then give rise to tertiary villi which forms core of villus containing umbilical blood vessels

Question 53

What are lacunae

Answer 53

Fluid filled spaces in syncytium that make contact with maternal blood vessels

Question 54

What forms chorionic villus?

Answer 54

cytotrophoblasts proliferating and invading syncytiotrophoblasts

Question 55

What is the mature villus

Answer 55

fetal tissue protruding into maternal blood brush border of syncytiotrophoblast faces maternal blood

Question 56

What happens to the spiral arteris in placental formation

Answer 56

increase in diameter and they get thinner ; which increases placental perfusion. Failure to develop vasculature results in placental ischemia

Question 57

Preeclampsia - hallmark symptoms and pathophysiology

Answer 57

Symptoms: Hypertension, proteinurea, and edema
Pathophysiology: Placenta has ischemia leads to oxidative stress and endothelial cell changes; damaged endothelial cells lead to increase in vasoconstriction and decrease in vasodilators –> worsens placental ischemia –> endothelial barrier between basement membrane and platelets is breached which leads to thrombosis, clotting, capillary leaks, edema, and proteinurea

Question 58

5 roles of the fully developed follicle

Answer 58

Maintain and nurture resident oocyte, mature oocyte and releaase it at appropriate time, prepare vagina and fallopian tubes for fertilization, prepare uterine lining for accepting and implanting zygote, maintaining hormone environment for fetus until placenta can take over

Question 59

what are theca cells, what do they produce, and what receptors do they have?

Answer 59

main hormone precursor cells with LH receptors ; generate androgens (androstenedione) and progestins

Question 60

What are granulosa cells, what hormones do they produce, and what receptors do they have?

Answer 60

Estrogens, progestins, inhibins, they have LH and FSH receptors
They provide support to help develop oocyte

Question 61

3 phases of ovarian cycle

Answer 61

Follicular
ovulatory
luteal

Question 62

Follicular phase

Answer 62

Development of the dominant follicle takes about 10-14 days

Question 63

Ovulatory phase

Answer 63

rupture of follicle and release of oocyte into peritoneal space; 1-3 days

Question 64

Luteinizing phase

Answer 64

Formation of corpus luteum (14 days or less, variable)

Question 65

3 phases of the endometrial cycle

Answer 65

Menstrual
Proliferative
Secratory

Question 66

When is the menstrual phase

Answer 66

Early follicular phase

Question 67

when is the proliferative phase

Answer 67

follicular phase

Question 68

when is the secretory phase

Answer 68

luteinizing phase

Question 69

When are germ cells of a female produced

Answer 69

first 20-24 weeks of gestation (by mitosis)

Question 70

By 6 months after the baby is bon, what stage are the oocytes at and how long will they be like this

Answer 70

arrested in meiosis 1 diplotene stage where they will remain until puberty (at the earliest)

Question 71

What are primordial follicles? What are they composed of? Are there theca cells?

Answer 71

Primordial follicles exist in utero; they are composed of small granulosa cells and no theca cells in a single row. They are arrested at diplotene stage of prophase I.

Question 72

What are primary follicles? What are they composed of? What hormone stimulation do they need to develop? Can this happens in utero?

Answer 72

Yes can happen in utero. This is the next stage of follicular development, where there is a slightly bigger granulosa cell – require FSH to develop– the granulosa cells are now cuboidal

Question 73

What part of the gonadal ridge does the female reproductive tract arise from?

Answer 73

The cortex (male arises from medulla)

Question 74

Secondary follicle - what is it, what happens to the stromal cells, what happens to the oocyte?

Answer 74

Oocyte gets more enlarged and granulosa cells proliferate. Stromal cells become theca cells.

Question 75

Early antral follicle/ tertiary follicle - what do the granulosa cells do, and what do they secrete closest to oocyte and furthest from oocyte

Answer 75

Granulosa cells will begin secreting antral fluid or (closest to oocyte) mucoglycoproteins that will form the zona pellucida . The oocyte will continue to enlarge.

Question 76

Mural cells

Answer 76

Granulosa cells furthest from oocyte that have lots of LH receptors and are metabolically active

Question 77

Cumulus cells

Answer 77

Granulosa cells next to the oocyte that form a light covering and will be shed at time of ovulation

Question 78

Antral cells

Answer 78

Granulosa cells which face the antrum and form luteal cells after ovulation

Question 79

At the point of choosing the dominant follicle, what stage of development is the oocyte arrested at

Answer 79

Diplotene stage (will remain there until LH surge)

Question 80

At the end of the ENTIRE ovarian cycle (at end of luteinization phase) is FSH or LH higher, and why is this important?

Answer 80

FSH is higher and this will help recruit follicles to enter next follicular phase

Question 81

What hormone is produced by recruited follicles, and what is the significance of this?

Answer 81

Inhibin B:
This will increase steroidogenesis in theca cells directly, activate pituitary to generate more LH to activate theca cells to augment steroidogenesis, and provide negative feedback on FSH (decreased FSH ensures only follicle most sensitive to FSH is going to survive)

Question 82

Inhibin A is produced by what, and what does it do?

Answer 82

corpus luteum; augments progesterone in luteal phase

Question 83

What is the 2 compartment theory of estradiol synthesis

Answer 83

Theca cells have LH receptors so they synthesize androgens; and then the granulosa cells have LH and FSH receptors. So the FSH cells stimulate LH receptor expression, which is required for response to LH surge. FSH also increases aromatase expression, and this converts the androgens to estrogen.

Question 84

What are the 4 steps of follicle maturation

Answer 84

1. Cumulus cell expansion - forms corona radiata and cumulus oophorus
2. Detachment of cumulus-oocyte complex - free floats in antrum
3. Follicle forms bulge against ovarian wall (stigma)
4. The osmotic pressure in antral fluid increases as polysaccharides begin to depolymerize and granulosa cells of cumulus oophorus loosen in preparation for ovulation

Question 85

2 steps of oocyte maturation – what is the result

Answer 85

oocyte completes meoisis 1

arrests at metaphase in meiosis –> results in secondary oocyte and polar body

Question 86

4 steps of ovulation

Answer 86

rupture of ovarian wall
2- extrusion of cumulus-oocyte complex
3. increased vascularization
4- differentiation of mural granulosa cells into large luteal cells, and theca cells into small luteal cells

Question 87

What organ determines timing of LH surge and what hormone does it require

Answer 87

Ovary; sustained exposure to estradiol

Question 88

What effect does estrogen have on progesterone

Answer 88

increases sensitivity to progesterone by increasing progesterone receptors in preparation for luteal phase

Question 89

what happens to corpus luteum during luteal phase

Answer 89

becomes more dominant in role; makes lots of progesterone and estrogen (mostly progesterone)

Question 90

What is the effect of progesterone and estrogen during luteal phase, ad what does this mean for FSH, LH, and GnRH secretion?

Answer 90

Negative feedback from P4 and E2 – less FSH, LH, and GnRH

Question 91

What does loss of LH mean for corpus luteum?

Answer 91

begins to die unless rescued by equivalent hormone secreted by embryo, hCG

Question 92

What hormone is in charge of proliferative phase, what is result?

Answer 92

Increased level of estrogen, due to the growing follicles, which stimulates proliferation of endometrium and expression of progesterone receptors to prepare for secretory phase. And you also have increased vascularization.

Question 93

What hormone is in charge of secretory phase, what are uterine glands doing?

Answer 93

Uterine glands begin secreting carb rich mucus, endometrium becomes engorged and stroma becomes edematous. Vascularization continues to increase, stromal cells undergo predecidualization. High progesterone levels antagonize proliferative effects of estrogen, so proliferation slows

Question 94

What happens in menstrual phase?

Answer 94

Low estrogen and progesterone due to corpus luteum dying; this reduced blood flow leads to ischemia in endometrium. Tissue becomes necrotic and proteolytic enzymes increase to digest this; endometrium sloughs off.

Question 95

What does estrogen do to growth of cohort follicles?

Answer 95

Inhibitory

Question 96

E1 estrogen
E2 estrogen
E3 estrogen

Answer 96

Estrone (mainly after menopause, lower affinity for estrogen receptors
Estradiol (main one in reproductive years)
Estriol (main one in pregnancy)

Question 97

Which ER, alpha or beta, is associated with reproductive effects

Answer 97

alpha; beta is nonreproductive effects

Question 98

What does progesterone do?

Answer 98

Prepares Endometrium for implantation, inhibits myometrial contractions (so you don’t spontaneously miscarry), stimulates mammary gland development (preparation for being a cow), antagonizes actions of estrogen (important consideration for HRT)