reproduction - march 12th

Question 1

What is the broad ligament? What does it do?

Answer 1

• Folding of the peritoneum
  (mesothelium and connective tissue).
• Supports several anatomical
  components of the reproductive tract
• Houses vascular supply, lymphatics and nerves
• Provides protection and structural support

Question 2

What do the ovaries do?

Answer 2

• Glandular organ that houses oocytes and ovarian follicles.
• Production of gametes (oogenesis)
• Follicle development
• Hormone production

Question 3

What produces the hormones secreted by the ovaries?

Answer 3

• Granulosa cells
• Theca cells
• Corpus luteum

Question 4

What are steps of oogenesis (formation and genotypic maturation of the female gametes), and what does each step entail?

Answer 4

1. Oocytogenesis:
   - Mitotic divisions resulting in more oogonia
   - Occurs during embryonic development
2. Ootidogenesis:
   - First meiotic division
   - Results in secondary oocyte and
   polar body
   - Occurs after puberty, cyclically
3. Oogenesis
   - Completes second meiotic division
   - Results in a mature ovum and polar body

Question 5

How does the embryo acquire nutrients?

Answer 5

the yolk (cytoplasm)

Question 6

polar bodies are composed of what?

Answer 6

genetic information only (no cytoplasm)

Question 7

At what phase of the cell cycle does the oocyte arrest in the follicular phase of oogenesis?

Answer 7

metaphase II

Question 8

What are the functions of the fallopian tubes?

Answer 8

• Oocyte capture and transport
• Sperm storage and transport
• Early embryo transport

Question 9

Where does fertilization occur?

Answer 9

The ampulla of the fallopian tube

Question 10

What captures the CoC?

Answer 10

Fimbriae of the infundibulum

Question 11

What is the role of the Isthmus?

Answer 11

sperm storage in females (for about 3 days in humans)

Question 12

What are the functions of the uterus?

Answer 12

• Site of embryo implantaton and fetal development
• Mucus secreton for optmal environment (conceptus or sperm)
• Uterine glands produce prostaglandins to control CL
• Mediates sperm transportation
• Hormone responsive, mediates contractions

Question 13

What are the functions of the cervix?

Answer 13

• Flushes foreign materials, protecting developing conceptus.
• Protects sperm from hostile vaginal environment.
• Filters defective, abnormal and immotile spermatozoa.
• Inhibits sperm migration during the menstrual cycle.

Question 14

What are the functions of the vagina?

Answer 14

• Provides passageway for extrusion of blood and mucosal tissue during menses
• Copulatory organ (possesses multiple nerve endings, expansive, mucus producing epithelium for lubrication)
• Sperm storage
• Parturition (birth) canal

Question 15

What is the role of FSH in the Follicular Phase?

Answer 15

• Stimulates the growth and proliferation of granulosa cells (GCs) in recruited primary ovarian follicles
• Stimulates production of FSH receptors on GCs (results in increased sensitivity to FSH / less FSH required to stimulate selected follicles)
• Stimulates aromatase production and increased enzymatic activity in the GCs (converts testosterone to estradiol)

Question 16

What is the role of LH in the Follicular Phase?

Answer 16

• Stimulates production of LH receptors on outer GCs (results in lower cGMP production which signals oocyte to reduce cGMPs – results in oocyte meiosis resumption)
• Stimulates theca interna cells to produce testosterone (testosterone diffuses into GCs and gets converted to estradiol via aromatase
  enzymes)

Question 17

What happens during the follicular phase (specifically hormone activity)

Answer 17

1. Hypothalamus releases GnRH, stimulating the anterior pituitary to secrete FSH and LH.
2. FSH sImulates the recruitment and proliferation of a new follicles (↑ FSH receptors on GCs → ↑ sensitivity, ↑ aromatase activity)
3. LH stimulates the follicles (↑ LH receptors in GCs → resumption of meiosis in oocyte, theca cells generate testosterone, diffuses to GCs → converted by aromatase to E2)
4. E2 production → ↑FSH receptors in dominant follicle (follicle requires less FSH to be simulated, low levels of FSH and LH along secreted by pituitary)
5. ↑E2 in dominant follicle → + feedback to hypothalamus

Question 18

What induces ovulation?

Answer 18

Increased E2 (estradiol) in late follicular stage induces GnRH pulses, resulting in an LH surge, which causes the follicle to burst

Question 19

What happens during the luteal phase?

Answer 19

• Luteinization by LH converts remaining granulosa and theca cells into the corpus luteum.
• Modified granulosa and theca cells from the corpus luteum generate progesterone and E2.
• These hormones stimulate endometrial gland secretions and the development of spiral arteries.

Question 20

What aides in fertilization?

Answer 20

• Cervical and uterine fluids aid in sperm activation.
• The occurrence of capacitation primes sperm for fertilization.
• Mild secretions of progesterone secreted by the CoC work as a
  chemoattractant.

Question 21

When sperm reach the CoC in the
ampulla, they _______ the cumulus
cloud (granulosa cells)

Answer 21

degrade

Question 22

how do sprm degrade the cumulus
cloud (granulosa cells)? (2)

Answer 22

1. Hyaluronidase (on surface of capacitated sperm, and conatins a hydrolytic enzyme which disintegrates GCs)
2. Sperm motility (physically disrupts cloud)

Question 23

What prevents more than 1 sperm from fertilizing the egg? (2)

Answer 23

Fast block:
- Rapid depolarization of the vitelline membrane
- Triggered by influx of Na+ ions from NaK+ pumps
- Results in electrical barrier to sperm entry

Later oocyte response:
- Intracellular pH increases due to influx of Na+ ions
- Triggers efflux of H+ ions
- Together, pH increase and Ca2+ ion increase stimulate protein and DNA synthesis

Question 24

What trigger the oocyte to continue meiosis after arresting in metaphase II?

Answer 24

Ca2+ wave

Question 25

Describe the process of zygote formation

Answer 25

• Completion of meiosis results in a female pronucleus.
• Sperm nucleus decondenses to form the male pronucleus.
• Sperm centriole forms microtubules that integrate with ovum microtubules, drawing the pronuclei closer.
• Fusion of the two pronuclei

Question 26

Describe the blastocyte structure

Answer 26

Inner cell mass:
- Embryoblast
- Gap junctions form
- Becomes the embryo proper

Outer cell mass:
- Trophoblast
- Tight junctions form
- Becomes fetal placental contribution
- Forms other extraembryonic membranes

Question 27

What are the steps of implantation?

Answer 27

Apposition and Adherence:
- Embryonic pole adjacent to the uterine endometrium
- Adherence via cell adhesion molecules
- LIF involvement, L-selectin, trophinin

Penetration:
- Syncytiotrophoblast, differentiated multinucleated trophoblast cells
- Invasive: secrete digestive enzymes, works its way into uterine tissue
- Establishes contact with maternal blood vessels

Decidual reaction:
- Uterine tissue responds to invasion by setting up immunological barrier (the decidua)
- Becomes the chorionic portion of placenta

Question 28

What is the Chorion membrane do?

Answer 28

Provides fetal oxygen and nourishment from the mother

Question 29

What is the Amnion membrane do?

Answer 29

• Encloses the embryo
• Filled with amniotic fluid
• Provides physical protection from impact

Question 30

What is the Amnion membrane do?

Answer 30

• Encloses the embryo
• Filled with amniotic fluid
• Provides physical protection from impact

Question 31

What is the Yolk Sac membrane do?

Answer 31

• Initial site of blood cell production (hematopoiesis)
• Synthesizes a variety of proteins
• Involved in maternal-fetal transport

Question 32

What is the Allantois membrane do?

Answer 32

Functions in independent storage waste and respiration (non-mammals)

Question 33

What causes dichorionic/diamniotic twins?

Answer 33

cleavage of mordula (on days 1-3)

Question 34

What causes monochorionic/diamniotic twins?

Answer 34

cleavage of blastocyte (on days 4-8)

Question 35

What causes monochorionic/monoamniotic twins?

Answer 35

cleavage of implanted blastocyte (on days 8-13)

Question 36

What causes conjoined twins?

Answer 36

cleavage of formed embryonic disc (on days 13-15)

Question 37

What’s an ectopic pregnancy?

Answer 37

implantation occurs somewhere other than the uterus.

Question 38

How does the Corpus luteum maintain pregnancy?

Answer 38

Synthesizes…
- Progesterone to keep the endometrium intact
- Progesterone, estrogen, inhibin: feedback suppression to pituitary

Question 39

How does the placenta maintain pregnancy?

Answer 39

Synthesizes…
- hCG*
- Estriol (uterine myometrium regulation, oxytocin receptors, development breast ducts)
- Progesterone (suppresses uterine contractions, cervical plug, milk glands)
- PTHrP / parathyroid hormone-related peptide (mobilizes mother’s bone calcium)
- CRH / corticotropin-releasing hormone (fetal lung maturation)

Question 40

What positive feedback occurs to trigger parturition?

Answer 40

1. Fetal adrenal gland secretes dehydroepiandrosterone sulfate
   (DHEAS) and cortisol upon stimulation by CRH (corticotropin
   releasing hormone) and ACTH (adrenocorticotropic hormone).
2. Cortisol stimulates the placenta to secrete CRH, producing a
   positive feedback loop.
3. DHEAS is converted by the placenta into estriol, which together
   with prostaglandins and oxytocin, stimulate the myometrium of the
   mother’s uterus to undergo changes leading to labor.