Female Reproductive Anatomy & Physiology

Question 1

What are the major components of the hypothalamic-pituitary-gonadal axis?

Answer 1

• GnRH is produced by the hypothalamus
• hypothalamus induces the production of LH/FSH in the anterior pituitary
• LH/FSH act on the ovaries and gonads to produce their respective hormones (estrogen, progesterone, testosterone), which can act as negative feedback and block GnRH production
• kisspeptin can be activated by estrogen to further induce GnRH secretion

Question 2

What sex hormones are produced in the 2 anatomical sites of the pituitary?

Answer 2

ANTERIOR = FSH, LH

POSTERIOR = oxytocin (stored)

Question 3

What is the source of GnRH? What is its target? What is the female response?

Answer 3

hypothalamic surge and tonic centers

anterior pituitary

release of FSH and LH

Question 4

What is the source of FSH? What is its target? What is the female response?

Answer 4

anterior pituitary

ovary granulosa cells

follicular development and estradiol release

Question 5

What is the source of LH? What is its target? What is the female response?

Answer 5

anterior pituitary

ovary theca internal and luteal cells

• ovulation
• forms corpus luteum
• progesterone release

Question 6

What is the source of prolactin? What is its target? What is the female response?

Answer 6

anterior pituitary

mammary glands

• lactation
• maternal behavior
• supports CL in the bitch

Question 7

What is the source of oxytocin? What is its target? What is the female response?

Answer 7

made in hypothalamus, stored in posterior pituitary, and synthesized by CL

myometrium, endometrium, mammary glands

• uterine contractions
• uterine secretion of PGF2alpha
• milk ejection

Question 8

What is the source of estradiol? What is its target? What is the female response?

Answer 8

granulosa cells of the follicle, placenta

hypothalamus, mammary glands, reproductive tract

• sexual behavior
• secretion of GnRH
• uterine motility
• mucous secretion

Question 9

What is the source of progesterone? What is its target? What is the female response?

Answer 9

CL and placenta

endo/myometrium, mammary glands, hypothalamus

• inhibits GnRH and reproductive behavior
• promotes pregnancy

Question 10

What is the source of testosterone? What is its target? What is the female response?

Answer 10

theca internal cells

brain, granulosa cells, skeletal muscle

• estradiol synthesis
• abnormal masculinization

Question 11

What is the source of inhibin/activin? What is its target? What is the female response?

Answer 11

granulosa cells

anterior pituitary

• INHIBIT = inhibits FSH secretion
• ACTIVIN = stimulates FSH secretion

Question 12

What is the source of PGF2-alpha? What is its target? What is the female response?

Answer 12

uterine endometrium

CL, myometrium, follicles

• luteolysis
• uterine contraction
• ovulation

Question 13

What is the source of PGE2? What is its target? What is the female response?

Answer 13

ovary, uterus, embryo

CL, oviduct

• ovulation
• progesterone release from CL

Question 14

What is the source of human chorionic gonadotropin (hCG)? What is its target? What is the female response?

Answer 14

trophoblast of blastocyst

ovary

production of progesterone by ovary to prepare for pregnancy

Question 15

What is the source of equine chorionic gonadotropin (eCG)? What is its target? What is the female response?

Answer 15

chorionic girdle cells, endometrial cups

ovary

formation of accessory CLs

Question 16

What is the source of lactogen? What is its target? What is the female response?

Answer 16

placenta

mammary glands

mammary stimulation

Question 17

What are the 2 major relevant functions of GnRH (analogs) in veterinary medicine?

Answer 17

1. induce cyclicity and ovulation
2. treat follicular cysts

Question 18

What are the 2 major functions of iatrogenic oxytocin?

Answer 18

1. induced smooth muscle contractions
2. social, maternal, bonding behavior (receptors in brain)

Question 19

What is the main clinical relevance of using oxytocin? How is it specifically used in mares?

Answer 19

• induced milk ejection
• induces myometrial contractions during parturition and to promote uterine clearance during estrus

induces parturition

Question 20

Anatomy of the female reproductive tract:

Answer 20

Question 21

What are ovarian follicles? How do they compare in horses?

Answer 21

structures in the ovary that contain the oocyte and must rupture for release into the oviduct for fertilization

all oocytes are released at one site after they are erupted internally, making follicles unable to be palpated on rectal exams

Question 22

What are the 4 types of uteruses seen in mammals?

Answer 22

1. simplex = no uterine horns (primates)
2. duplex = two cervices (marsupials, rabbit)
3. bicornuate with highly developed uterine horns =(bitch, queen, sow)
4. bicornuate with poorly to moderately developed uterine horns = (mare, cow)

Question 23

What are the 2 major requirements for reaching puberty? Why are they commonly breed-dependent?

Answer 23

GnRH neuronal development requires

1. threshold body size
2. exposure to environment or social cues - photoperiod, presence of males, density of group housing, stress

smaller breeds reach threshold body size earlier - Chihuahua will reach sexual maturity before Great Danes

Question 24

What are 3 possible influences of metabolic signals on GnRH neurons?

Answer 24

1. BLOOD FATTY ACIDS (indicator of nutritional status) may stimulate neurons that lead to GnRH neuron stimulation
2. BLOOD GLUCOSE (indicator of metabolic status) may stimulate neurons that are able to stimulate GnRH neurons
3. LEPTIN is secreted by adipocytes and stimulates neutopeptide Y neurons anf GnRH neurons

(all stimulate kisspeptin neurons!)

Question 25

How do hormone levels compare before and during puberty?

Answer 25

BEFORE = tonic center has a high sensitivity to negative feedback from estradiol - low estradiol = low GnRH = low FSH/LH = low estradiol

DURING = tonic center negative feedback decreases - low estradiol = more GnRH = high FSH/LH = more estradiol to tonic and surge centers = preovulatory LH surge = ovulation

Question 26

What are the 3 types of estrous cycles?

Answer 26

1. nonseasonally polyestrous - cows, sows, alpacas, llamas
2. seasonally polyestrous - long day breeders (mares, queens), short day breeders (small ruminants)
3. monoestrous - bitches (long anestrus)

Question 27

What are the 4 stages of the estrous cycle?

Answer 27

1. proestrus
2. estrus
3. diestrus
4. anestrus - no ovary activity

Question 28

What are the 2 substages of estrus?

Answer 28

1. metestrus - early diestrus with increased progesterone to allow follicle to rupture into the corpus hemorrhagicum
2. postestrus - induced ovulators, no CL development and no signs of estrus

Question 29

What are 5 causes of anestrus?

Answer 29

1. species - anestrus long in bitches
2. pregnancy, lactation - no need to go though estrous cycle
3. stress, nutrition - lean = likely to have an altered and longer anestrus to save energy
4. pathology
5. season - mares and small ruminants

Question 30

What are the 2 types of seasonally polyestrous animals? What is responsible for the difference?

Answer 30

1. long day breeders - mares
2. short day breeders - small ruminants

• long photoperiods induce the pineal gland to have a low melatonin release
• short-day kiss neurons are inhibited, leading to decreased GnRH, FSH, and LH, resulting in no cycles
• long-day kiss neurons are stimulates, leading to increased GnRH, FSH, and LH, resulting in cyclicity

Question 31

What are the 2 phases of the estrous cycle?

Answer 31

1. follicular phase - proestrus and estrus, where the follicles are growing in response to high estradiol
2. luteal phase - diestrus, where the CL is growing in response to high progesterone

Question 32

How does the follicular phase occur?

Answer 32

• decreased progesterone from CL
• increased GnRH
• increased FSH and LH
• this leads to proestrual follicular development
• resulting inhibin increase causes a decrease in FSH to block the growth of other smaller follicles
• resulting to estradiol increase causes a preovulatory LH surge

Question 33

What additional event also occurs during the luteal phase?

Answer 33

folliculogenesis

Question 34

Estrous cycle:

Answer 34

Question 35

What are the 4 steps of folliculogenesis? What hormones are responsible for each?

Answer 35

1. RECRUITMENT - high FSH, low LH, low inhibin and estradiol
2. SELECTION - low FSH, moderate LH, low inhibin, high estradiol
3. DOMINANCE - low FSH, high LH, high inhibin and estradiol
4. ATRESIA

Question 36

Folliculogenesis:

Answer 36

active CL from previous cycle produce progesterone, which keeps dominant follicles from emerging

as CL regresses, progesterone decreases, and ovulation occurs

Question 37

How does the dominant follicle emerge? How do the levels of FSH and LH also take part?

Answer 37

secrete inhibin and estradiol to inhibit other follicles

• LOW FSH = atresia of other follicles
• HIGH LH = ovulation

Question 38

What is the two-cell-two-gonadotropin theory?

Answer 38

• LH binds to theca internal resulting in cholesterol to be converted into testosterone, which enters the granulosal cells
• FSH binds to granulosa cells to convert the testosterone from estradiol

Question 39

What are some signs of estrus?

Answer 39

• increased mucosal thickness
• increased mucous production
• increased blood flow and leakage
• leukocytosis
• edema
• increased muscular tone (not in mares!)
• lordosis
• increased phonation and physical activity

Question 40

What are some spontaneous and induced ovulator species?

Answer 40

SPONTANEOUS - horse, cow, sheep, goats, pigs, dogs

INDUCED - cats (multiple copulations needed), rabbits, ferrets, camelids (one copulation enough)

Question 41

How does induced ovulation work?

Answer 41

• nerve endings in the vagina sense copulation
• nerve impulses run to the spinal cord to the hypothalamic tonic center, leading to a release in GnRH
• LH surge results

Question 42

What type of process is ovulation? What 5 things occur?

Answer 42

inflammatory

1. vasodilation
2. hyperemia
3. edema
4. collagenolysis
5. cell proliferation

Question 43

What occurs during the luteal phase of the estrous cycle?

Answer 43

corpus luteum forms due to elevated progesterone levels

Question 44

What happens during diestrus?

Answer 44

progesterone levels increase to prepare for pregnancy and inhibit reproductive behavior

Question 45

What are the 4 effects of diestrus?

Answer 45

1. reduced uterine tone
2. decreased uterine resistance to infection (male hygiene important!)
3. secretion of histotroph (uterine milk) in preparation for implantation of embryo
4. stimulation of mammary glands

Question 46

What causes luteolysis? What 3 things does this result in?

Answer 46

PGF2 alpha

1. decreased CL blood flow
2. inhibits progesterone synthesis
3. induces apoptosis

Question 47

What does the PGF2 alpha responsible for luteolysis come from?

Answer 47

comes from the endometrium to the follicles due to vascular counter current exchange