Reproductive hormones and the HPG axis

Question 1

Name the different types of hormone signalling

Answer 1

• Endocrine
• Paracrine
• Neuro-endocrine
• Autocrine
• Neural

Question 2

Describe endocrine signalling

Answer 2

Delivered to blood to get to remote site of action (not every cell in teh body will have the necessary receptors for every hormone)

Question 3

Describe paracrine signalling

Answer 3

Does not require systemic blood flow, passed through interstitial flow

Question 4

Describe neuro-endocrine signalling

Answer 4

Hormone passed into blood from neurone to be passed to the target cell

Question 5

Describe neural signalling

Answer 5

Neurone produces active substance and delivers to target cells without circulation

Question 6

Explain the importance of hormone receptors for hormone signalling

Answer 6

• Receptors are expressed by target cells and are specific to a hormone
• No receptor = no response
• The ligand (hormone) will bind to or “fit” a site on the receptor
• Have to bind to carry out function

Question 7

Describe lipid soluble hormones (give examples)

Answer 7

• Must be transported in blood by carrier proteins
• May be specific to the hormone or general bulk carriers
• Diffuse through plasma membrane and bind to intracellular receptors
• Alter expression of genes at level of nucleus
• e.g. steroid hormones

Question 8

Describe water soluble hormones

Answer 8

• Easily travel in blood
• Excluded from cells by lipid bilayer
• Bind to receptors on surface of cells
• Results in series of intracellular events
• e.g. GnRH, FSH, LH, IGF

Question 9

Describe peptide hormones

Answer 9

• Work at cell surface
• Result in second messenger signalling
• Peptie can be considered priamry messenger
• Binding leads to cascade of enzymatic actions

Question 10

Describe steroid hormones

Answer 10

• Not received at cell surface, pass through plasma membrane into cytosol
• Bind to intracellular receptors
• Receptor-hormone complex into nucleus to act on DNA
• Slower rate of action (more needs to happen before get a response)

Question 11

What reproductive hormones are produced by the hypothalamus?

Answer 11

GnRH

Question 12

What reproductive hormones are produced by the pituitary?

Answer 12

• ADH, chorionic gonadotrophins (FSH and LH) from anterior pituitary
• Prolactin from ant pit
• ## Oxytocin from post pit

Question 13

Where is oxytocin synthesised?

Answer 13

Hypothalamus

Question 14

What reproductive hormones are produced by the ovary?

Answer 14

• Oestrogens
• Progesterone
• Inhibin
• Oxytocin
• Relaxin
• Some testosterone

Question 15

What reproductive hormones are produced by the testes

Answer 15

• Testosterone and other androgens
• Inhibin
• Oestrogen

Question 16

What reproducive hormones are produced by the placenta?

Answer 16

• Prostaglandin F2alpha (PGF2a)
• Progesterone
• Oestrogen
• eCG and hCG (equine and human chorionic gonadotrophins)

Question 17

Describe the structure of gonadotrophins

Answer 17

• Formed of standard alpha subunit and varying beta-subunits
• Glycoprotein heter-dimers with shared alpha chain
• Different beta-chain depending on which gonadotrophin

Question 18

Describe the gonadotrophin receptors

Answer 18

• Act on G-protein-7-transmembrane receptors

- LH and chorionic gonadotrophs bind a common receptor

Question 19

What has to happen to gonadotrophins before excretion?

Answer 19

A series of metabolic conversions

Question 20

Describe the synthesis of steroids

Answer 20

• From dietary cholesterol thorugh series of enzymatic conversions
• e.g. testosterone to oestradiol via aromatase
• All have similar structure

Question 21

How are steroids inactivated and where?

Answer 21

• Liver, 2 ways
• Saturation of all double bonds = inactivated
• Sulfate or glucuronide attached making it water soluble allowing excretion in urine as glucuronide or sulfate salt

Question 22

How is progesterone inactivated?

Answer 22

Saturation of all double bonds

Question 23

How is testosterone inactivated

Answer 23

Formation of glucuronide or sulfate salts

Question 24

Describe the main features of prostaglandins

Answer 24

• Synthesised from arachidonic acid
• High levels in seminal fluid
• At least 6 biocehmical PGs and many metabolites
• Bind to cell memrbane G protein coupled receptors- 2 importna tin repro: PgF2a and PGE2
• Rapidly degraded (seconds, single passage through pulmonary system)

Question 25

Describe the hypothalamic pituitary gonadal axis in general

Answer 25

• Hypothalamus released GnRH, acts on pituitary to stimulate release of LH and FSH, act on the gonads
• Have feedback loops throughout the HPG axis

Question 26

Describe the input of the CNS to the HPG axis

Answer 26

• Information on physical and environmental state
• Pheromones, tactile, visual reaction to bellowing of animal etc
• Stimulates the hypothalamus

Question 27

What are the 2 GnRH rich areas of the hypothalamus in the male?

Answer 27

• Optic chiasma

- Paraventricular nucleus

Question 28

What is the connection between the hypothalamus and the anterior pituitary?

Answer 28

• Hypothalamo-hypophyseal-poral system
• 2 vascular networks in series
• Primary portal plexus in the stalk areas, down into the secondary portal plexus

Question 29

Describe the function of the hypothalamic-hypophyseal-portal system

Answer 29

• Neurones from hypothalamus to portal plexus, release small amounts
• Ok to be small amounts as not diluted by circulation
• Transports GnRH from hypothalamus to ant. pit.
• Neurohormones diffuse out, bind to receptors on endocrine cells
• Stimulate release of LH and FSH

Question 30

Describe the connection between they hypothalamus and the posterior pituitary

Answer 30

• Neuronal connection

- Release into post. pit for storage and then secretion from there to target cells via blood

Question 31

Describe the Leydig cells

Answer 31

• LH receptor
• Testosterone production
• Outside of seminiferous tubules

Question 32

Describe the Sertoli cells

Answer 32

• FSH receptors
• Produce inhibin
• Found within seminiferous tubules

Question 33

What is the effect of testosterone on the hypothalamus?

Answer 33

Inhibitory to GnRH release

Question 34

What is the effect of testosterone on its target tissues?

Answer 34

Stimulatory

Question 35

What is the effect of inhibin?

Answer 35

Inhibitory to the production of FSH and LH

Question 36

What structures can be found within the ovary?

Answer 36

• Follicles (at various stages of development)

- Corpus luteum

Question 37

Give a brief overview of the develoment and release of the oocyte in the ovary

Answer 37

• Primordial follicle to antral phase
• Dominant follicle ready for ovulation
• then release of oocyte
• Following release, follicle becomes corpus haemorrhagicum, then corpus luteum and regressing CL is corpus albicans

Question 38

What is the function of the follicle?

Answer 38

• Oocyte development
• Multiple stages of development
• Oestradiol secretion

Question 39

What is the function of the corpus luteum?

Answer 39

• Follows ovulation
• transient endocrine gland
• Progesterone secretion

Question 40

Where is GnRH produced in the female?

Answer 40

• 2 groups of hypothalamic neurons
• surge (pre-ovulatory) centre
• Tonic centre

Question 41

Describe the basal GnRH secretion

Answer 41

• Numberous small pulses, regular and brief

Question 42

Describe the preovulatory surge of GnRH

Answer 42

• High levels of GnRH secretion for extended period of time

- Stimulated by increased oestrogen

Question 43

What is the function of the pre-ovulatory surge?

Answer 43

Stimulates ovulation in the absence of progesterone

Question 44

Briefly describe the HPO axis in females

Answer 44

• GnRH stimulates secretion of LH and FSH
• Stimule follicle to produce oestroadiol
• High levels has positive feedback, threshold reached and pre-ovulatory surge occurs
• Inhibin secreted from follicle, inhibitory to FSH

Question 45

Explainthe FSH to LH shift at to ovulation

Answer 45

• Prior to ovulation FSH more dominant than LH
• Inhibin has negative feedback effect on FSH
• Nearer to ovulation follicle depends more on LH than FSH (as FSH is being inhibited)

Question 46

Briefly describe the hormonal events at ovulation

Answer 46

• Dominant folllicle producing oestradiol
• GnRH stimulates LH surge
• Leads to ovulation
• Following ovulation get early CL which produces progesterone

Question 47

What is the function of the progesterone produced by the CL?

Answer 47

• Negative feedback to GnRH
• Prevents follicle development, oestradiol production, oestrus and GnRH/LH surge
• Positive actions on mammary gland and endometrium (preparation for pregnancy)
• Inhibits myometrium
• Inhibits ovulation

Question 48

Briefly describe luteolysis

Answer 48

• Stimulated by PGF2a from uterus
• Rapid deteriation of CL
• Progesterone removed