Endocrinology of Pregnancy

Question 1

How is semen made?

Answer 1

• first there is a spermatogonium 44XY
• then primary spermatocytes (both 44XY) -> formed in basal fluid space surrounding seminiferous tubules
• then secondary spermatocytes (22X or 22Y) -> penetrate between the Sertoli cells, under the influence of Sertoli secretions they develop in to spermatids
• then spermatids (22X or 22Y)
• then spermatozoa (22X or 22Y) -> enter seminiferous fluid which is continuously secreted by Sertoli cells
• tubular fluid is concentrated/reabsorbed through the actions of oestrogen
• Nutrients (eg fructose) (-> for long journey) & glycoprotein (-> protection from hostile environment that it will encounter) secretion into epididymal fluid (induced by androgens)

Question 2

What is in semen?

Answer 2

Spermatozoa 15-120 million/ml
Seminal fluid 2-5ml

Leucocytes
(potentially viruses e.g. hepatitis B, HIV)

Question 3

How many sperm reach areas in female reproductive tract in ejaculation?

Answer 3

1/100 of spermatozoa in ejaculate enter the cervix
1/10,000 cervix to ovum
Overall 1/million reach ovum

Question 4

Briefly summarise the male testis-HP axis

Answer 4

• pulsatile GnRH from hypothalamus
• LH and FSH from anterior pituitary
• LH acts on Leydig cells in the testis which are important for the production of testosterone and therefore virilisation and are important in spermatogenesis as well
• FSH acts on Sertoli cells which are responsible for spermatogenesis and also they produce inhibin
• testosterone and inhibin exert negative feedback on the hypothalamus and on the anterior pituitary

Question 5

How long does sperm have to travel to reach the Fallopian tube?

Answer 5

Travels 100,000 x its length from Testis to Fallopian tube

-> equivalent of SK -> Brighton -> SK for 1.5m human

Question 6

Where is seminal fluid produced?

Answer 6

Small contribution from:
- Epididymis/testis

Mainly from accessory sex glands:

• Seminal vesicles
• Prostate
• Bulbourethral glands

Question 7

What are the accessory sex glands in males?

Answer 7

• Seminal vesicles
• Prostate
• Bulbourethral glands

Question 8

What is capacitation of sperm?

Answer 8

-> achieve fertilising capacity in the female reproductive tract

1. Loss of glycoprotein ‘coat’
2. Change in surface membrane characteristics
3. Develop whiplash movements of tail

Takes place in ionic & proteolytic environment of the Fallopian tube
Oestrogen-dependent
Ca2+-dependent

Question 9

Acrosome

Answer 9

• organelle that contains enzymes that can break down the ovum outer membrane (zona pellucida)
• develops in the anterior half of the head of spermatozoa
• derived from the Golgi apparatus

Question 10

What happens in people with aromatase deficiency?

Answer 10

-> cannot make oestrogen and also have high testosterone

• high testosterone causes acne, hirsutism etc.
• low oestrogen causes being tall because epiphyseal growth plate closure requires oestrogen so the epiphysis of bones keep on growing

-> not many cases known

Question 11

Acrosome reaction

Answer 11

• Sperm binds to ZP3 (= sperm receptor)
• Ca2+ influx into sperm (stimulated by progesterone (from corpus luteum))
• Release of hyaluronidase & proteolytic enzymes
  (from acrosome)

-> Spermatozoon penetrates the Zona Pellucida

Question 12

Where does capacitation occur?

Answer 12

In the female reproductive tract (Fallopian tubes)

- dependent on oestrogen and calcium (the oestrogen dependency is why it has to occur in the female reproductive tract)

Question 13

What is the sperm receptor on the ovum?

Answer 13

ZP3

-> sperm binding causes influx of calcium into the sperm (which is stimulated by progesterone from the corpus luteum) Progesterone=pro-gestation -> promotes pregnancy

Question 14

Zona Pellucida

Answer 14

• outer membrane of ovum
• glycoprotein layer
• broken down and penetrated by spermatozoa after binding to ZP3

Question 15

Polar body

Answer 15

• when female cells divide, they do not divide equally in terms of cytoplasm
• the polar body is the cell that has a very tiny amount of cytoplasm
• it ultimately undergoes apoptosis because it cannot maintain itself

Question 16

Fertilisation

Answer 16

• Occurs within the Fallopian tube
• Triggers cortical reaction
• Cortical granules release molecules which degrade Zona Pellucida (e.g. ZP2 & 3)
• Therefore prevents further sperm binding as no receptors
• Haploid -> Diploid

Question 17

How is the binding of further sperm cells prevented at fertilisation?

Answer 17

• cortical granules are released
• these degrade the zona pellucida and remove receptors
• further sperm cannot bind without receptors

Question 18

Development of the conceptus

Answer 18

• Continues to divide as it moves down Fallopian tube to uterus (3-4 days)
• Receives nutrients from uterine secretions
• This free-living phase can last for ~ 9-10 days -> then blastocyst implants

Question 19

What happens to the corpus luteum if pregnancy does or does not occur?

Answer 19

• if pregnancy occurs, the corpus luteum can be maintained by beta-HCG from the placenta
• if there is no pregnancy, the corpus luteum becomes a corpus albicans and stops producing progesterone
• you need a source of HCG to maintain the corpus luteum

Question 20

Implantation

Answer 20

• Attachment phase: outer trophoblast cells contact uterine surface epithelium
  THEN
• Decidualisation phase : changes in underlying uterine stromal tissue (within a few hours) -> changes in endometrium due to progesterone
• Requires progesterone domination in the presence of oestrogen

Question 21

What is the difference in terms of dosage between HRT and OCP?

Answer 21

HRT has a much lower dose than OCP

Question 22

When does ovarian cancer tend to occur?

Answer 22

After child bearing age

Question 23

What cells make up the blastocyst? What do they end up becoming?

Answer 23

• trophoblast cells make up the outer surface of the blastocyst and later make the placenta
• inner cell mass cells are found on the inside of the blastocyst and later make up the embryo

Question 24

What mediators are released in the attachment of the blastocyst to the endometrium?

Answer 24

• Leukaemia inhibitory factor (LIF) from endometrial secretory glands (& blastocyst?) stimulates adhesion of blastocyst to endometrial cells
• Interleukin-11 (IL11) also from endometrial cells is released into uterine fluid, and may be involved
• Many other molecules involved in process (e.g. HB-EGF)

Question 25

What are the important factors for implantation?

Answer 25

• LIF
• IL-11
• Progesterone

Question 26

What are important molecules in attachment?

Answer 26

• LIF
• IL-11
• maybe also some other factors

Question 27

What occurs during decidualisation?

Answer 27

Endometrial changes due to progesterone

• Glandular epithelial secretion
• Glycogen accumulation in stromal cell cytoplasm
• Growth of capillaries
• Increased vascular permeability (→oedema)

=> all about getting nutrients to that area

Question 28

What factors are involved in decidualisation?

Answer 28

• IL-11
• histamine
• certain prostaglandins
• TGF-beta (promotes angiogenesis)

Question 29

Which is the first hormone to go up in pregnancy?

Answer 29

HCG

• > maintains corpus luteum
• > corpus luteum is the source of progesterone and oestrogen
• > the hCG is acting on LH receptors

Question 30

Which hormones increase in pregnancy?

Answer 30

• hCG
• human placental lactogen?
• oestrogen (mainly oestriol)
• progesterone

Question 31

hCG full name

Answer 31

human chorionic gonadotrophin

Question 32

What are the effects of human placental lactogen?

Answer 32

-> metabolic

• promotes insulin resistance in the mother
• this is thought to promote nutrients going to the baby (higher blood sugar levels)

Question 33

Why does the hCG only rise for some time?

Answer 33

• in the beginning it is there to maintain the corpus luteum and its progesterone (and oestrogen) production
• at a point (~10w) the placenta takes over O and P production so the hCG can fall again.

Question 34

Progesterone and oestrogen production during pregnancy

Answer 34

First 40 days

• Produced in corpus luteum (in maternal ovary)
• stimulated by hCG (produced by trophoblasts) which acts on LH receptors
• Essential for developing fetoplacental unit
• Inhibits maternal LH & FSH (-ve feedback)

From day 40
- Placenta starts to take over

Question 35

Draw how the hormones in pregnancy change in level throughout the 40w

Answer 35

• hCG rises and declines at about 40d
• oestrogen and hpl have a similar curve, rising linearly and falling at 40w, slightly higher curve for oestrogen
• progesterone rises with a higher inclination than oestrogen, falls at 40w

Question 36

Where is hCG secreted from?

Answer 36

• initially from sincitotrophoblasts from the conceptus

- then placenta

Question 37

What does DHEAS stand for?

Answer 37

Dehydroepiandrosterone sulfate

Question 38

What is the main source of oestrogens in pregnancy?

Answer 38

maternal and foetal DHEAS

Mother: DHEAS -> oestradiol, oestrone
Baby: makes DHEAS -> oestradiol, oestrogen and also makes 16-alpha-hydroxy DHEAS which is turned into oestrus via placenta

Question 39

Prolactin levels in terms of prolactinoma

Answer 39

• increased
• levels of prolactin indicate how big the tumor is and how, whether it is changing
• if a woman with a prolactinoma is pregnant you cannot use levels of prolactin as a marker of tumor size any more because of lactotroph hyperplasia -> check visual fields in every trimester

Question 40

Which hormones increase in pregnancy?

Answer 40

ACTH
Adrenal steroids
Prolactin
IGF1 (stimulated by placental GH-variant)
Iodothyronines
PTH related peptides

Question 41

Why do adrenal steroids increase in pregnancy?

Answer 41

because of increases in ACTH

Question 42

Why does prolactin increase in pregnancy?

Answer 42

lactotroph hyperplasia

Question 43

Why does IGF-1 increase in pregnancy?

Answer 43

It is stimulated by placental GH

Question 44

Why do iodothyronines increase in pregnancy?

Answer 44

because hCG and TSH share an alpha subunit and therefore the thyroid gland it stimulated to an extent

Question 45

Why are PTH related peptides increased in pregnancy?

Answer 45

• from breast tissue

- increased to mobilise calcium from the mothers skeleton to ensure that there is enough for the foetus.

Question 46

Which hormones decrease in pregnancy?

Answer 46

• gonadotrophin (LH and FSH)
• pituitary GH
• TSH

Question 47

Why do gonadotrophins decrease in pregnancy?

Answer 47

• there is high, LH and FSH independent production of oestrogen
• this oestrogen exerts negative feedback on the H and AP

Question 48

Why is there a decrease in TSH in pregnancy?

Answer 48

because hCG does some of its job in terms of stimulating the thyroid gland so there is some more negative feedback to H and AP

Question 49

What are the 3 key hormones in partuition?

Answer 49

• oxytocin
• oestrogen
• cortisol

Question 50

What are the main functions of oxytocin?

Answer 50

• Uterine contraction
• Cervical dilation
• Milk ejection

Question 51

What are some receptors that kisspeptin neurones have?

Answer 51

• prolactin (fertility problems in hyperprolactinaemia)
• leptin (fertility problems in anorexia)
• oestrogen (-ve feedback of O to Hypothalamus)

Question 52

Endocrine control of lactation

Answer 52

• suckling stimulus to nipple
• neural pathways to the hypothalamus
• hypothalamus stimulates AP and PP to make prolactin and oxytocin respectively
• prolactin -> acts on breast tissue for milk production
• oxytocin -> acts on breast tissue for milk ejection

Question 53

Why may marathon runners get low testosterone or galactorrhoea?

Answer 53

• nipple stimulation activating the axis

- high prolactin causes decreased sex steroid levels.