Final Exam (Lecture 61) - Placenta and Parturition Flashcards
What is the function of eCG in the mare? What about eCG in other species?
1) In the mare:
- Luteotrophic activity
- Activates LH receptor on small luteal cells (SLCs) in the CL
- LH-R (a GPCR) activation leads to P4 synthesis (P4 is the pro-gestational hormone)
- Promotes the growth of accessory CLs
2) In other species:
- eCG has FSH-like activity
- Used for superovulation in embryo transfer
What is placental lactogen and what is its function?
A hormone released by the placenta during pregnancy
- Stimulates the growth and development of the mammary gland
- Stimulates growth and development of the fetus
- For most species (except cattle and goats) it is more involved in lactogenesis
What are the hormonal changes at parturition? How is fetal cortisol especially involved?
1) E2 and PGF2-alpha levels coordinately rise and peak at parturition
- Both hormones have direct effects on the myometrium
- PGF2-alpha influences the release of relaxin
Placenta produces relaxin and oxytocin near parturition
- Oxytocin = stimulates myometrial contractions
- Relaxin causes a relaxation of connective tissue in vagina and cervix
- In the bovine, relaxin IS NOT produced by the placenta but by the CL
2) Fetal cortisol rising is the major impetus of the parturition process
- The fetus grows and becomes “cramped”; activating a stress response via the pituitary-adrenal axis
- Fetal anterior pituitary releases ACTH that causes a release of adrenal cortisol
- Fetal cortisol activates cascades that facilitate parturition
- Fetal cortisol activates enzymes that convert placental P4 to E2
- Fetal cortisol activates PGF2-alpha synthesis in the placenta
What is the major feedback mechanism of parturition and the postpartum period?
Oxytocin is the primary feedback hormone
What are the five general endocrine functions of the placenta?
1) Stimulates ovarian function
2) Maintains pregnancy
3) Influences fetal growth and development
4) Stimulates the mammary gland
5) Assist in parturition
What are the classification schemes of the placenta and what are examples of each?
1) Macroscopic (gross) appearance based on the generalized degree of contact between the placenta and the endometrium.
a) Diffuse = Sow and mare
b) Cotyledonary = Ruminants
c) Zonary = Dogs and cats
d) Discoid = Humans (not discussed)
2) Microscopic appearance based on the amount of intimate contact between the placenta and the endometrium (layering).
a) Epitheliochorial = Mare and sow; 6 layers between fetal and maternal blood supplies
b) Syndesmochorial = Ruminants; same as above with addition of binucleate giant cells (fetal side) and
trinucleate feto-maternal hybrid cells
c) Endotheliochorial = Dogs and cats; 5 layers between blood supplies
d) Hemochorial = Primates and rodents; fewest layers between blood supplies
3) Fate of the placenta based on the retention (or lack of) of the placenta after parturition.
a) Deciduous = All of the placenta falls out of the uterus after parturition
b) Non-deciduous = A portion of the placenta stays in the uterus after parturition
- epitheliochorial
- syndesmochorial
Which types of molecules can cross the B-P-B?
By Simple Diffusion:
- Water
- Gases (CO2, O2, CO)
- Lipid hormones (estrogen/testost.)
By Facilitated Diffusion:
- Glucose
- Amino acids
- Immunoglobulins
By Active Transport:
- Sodium
- Potassium
- Toxic substances (such as drugs) as well as microbial pathogens can also cross the BPB.
