Ovarian function and control

Question 1

What are the different stages of follicle?

Answer 1

• Primordial
• Priimary
• Secondary
• Tertiary/antral

Question 2

Describe the structure and function of follicles

Answer 2

• Oocyte maturation
• Fluid filled
• Secretes oestradiol
• Multiple stages of development with different morphologies

Question 3

Describe the structure and function of the corpus luteum

Answer 3

• Highly vascularised
• Transient endocrine gland
• Solid
• Progesterone production
• Several inches in size, takes over most of ovary when present

Question 4

What are the key steps in the formation of follicles?

Answer 4

• Recruitment of follicular cells
• Early follicular growth
• Oocyte changes

Question 5

Describe the recruitment of follicular cells

Answer 5

• Granulosa cells form primordial follicle
• Form cohorts/”egg nests”
• Make up a reservoir

Question 6

Describe early follicular growth

Answer 6

• Local ovarian growth stimulated by IGFs, BMP
• Many oocyte derived
• Gonadotrophin independent

Question 7

Describe the oocyte changes in follicular development

Answer 7

• Increases cytoplasmic volume
• Formation of zona pellucida
• Communication via gap junctions

Question 8

Describe primordial follicles

Answer 8

• Recruitment of granulosa cells (flattened)

- Single layer of flattened granulosa cells

Question 9

Describe the resting primary follicles

Answer 9

• Act as reserves
• Develop into secondary follicles
• Granulosa proliferation occurs (cuboidal now)

Question 10

Describe the secondary follicles

Answer 10

• Surrounded by granulosa cells (multiple layers)
• Zona pellucids present
• Basement membrane forms
• Recruitment of theca cells (originaly stromal cells)

Question 11

Describe the antral maturing follicles

Answer 11

• Escape influence of granulosa cells and resume meiosis
• Develop in follicular waves
• Fluid accumulation
• Recruitment, selection and dominant antral follicles
• Go through these stages quickly compared to rest of development

Question 12

Describe follicle recruitment

Answer 12

• Initiated by FSH wave
• Cohort of small antral follicles (10-20) start to develop
• Secrete small amount of oestradiol
• Occurs in luteal and follicular phase
• Some undergo atresia

Question 13

Describe follicle selection

Answer 13

• Dependent on FSH for support
• Produce inhibin and oestradiol
• Negative feedback on pituitary gland, supprsing only FSH
• Become LH dependent
• Some undergo atresia

Question 14

Describe follicle dominance

Answer 14

• Transition from FSH to LH depenedence
• LH receptors appear in granulosa cells
• Increased oestradiol and inhibin production = inhibits growht of other follicles
• Growth 1mm/day in cow, >3mm/day in horse
• Remain for ~6 days
• ovulate or undergo atresia depending on whether progesterone falls

Question 15

Describe the hormone levels in follicular recruitment

Answer 15

• High FSH
• Lower LH
• Lower oestradiol from ovary back to surge centre

Question 16

Describe the hormone levels in follicular selection

Answer 16

• Increasing inhibin from ovary
• Decreasing FSH
• Increasing LH
• Increasing oestradiol from ovary back to surge centre

Question 17

Describe the hormone levels in follicular dominance

Answer 17

• High inhibin from ovary
• Low FSH
• High LH (LH dependent)
• Very high oestradiol back to surge centre

Question 18

What is the effect of progesterone on follicular dominance?

Answer 18

• No ovulation in presence of progesterone

- Dominant follicle will undergo atresia

Question 19

How many follicular waves are seen in the cow?

Answer 19

3, first 2 end in atresia, last ends in ovulation

Question 20

What is meant by the follicular wave?

Answer 20

The wave-like pattern of follicle development, i.e. will develop all the way to dominant follicle then become atretic repeated a few times before ovulation occurs

Question 21

What cells are involved in the production of oestradiol from the ovary?

Answer 21

Theca and granulosa cells

Question 22

What stimulates the production of oestradiol?

Answer 22

FSH and LH

Question 23

What is the key enzyme involved in oestradiol production?

Answer 23

Aromatase

Question 24

What receptors are found on the theca and granulosa cells?

Answer 24

• Theca: LH

- Granulosa: FSH

Question 25

Describe the process of oestradiol production in the ovary

Answer 25

• LH binds to receptors on LH cells
• Stimulates production of enzymes producing testosterone
• Testosterone to granulosa cells
• When FSH binds, enzymatic cascade that converts testosterone to oestradiol

Question 26

Outline the process of oogenesis

Answer 26

• Primordial germ cells originate from hindgut
• Proliferate by mitosis
• first migrate to genital ridge, massive mitosis to form primary oocytes, then into meiosis
• Arrest at prophase I until birth

Question 27

Describe oocyte maturation

Answer 27

• After ovulation
• Cytoplasmic maturation takes place in preparation for embryo development, need RNA and organelles
• Nuclear maturation stimulated by LH surge, completion of meiosis I
• Meiosis II arrested until fertilisation leads to influx of Ca2+

Question 28

What is ovulation?

Answer 28

The release of the oocyte

Question 29

Where does ovulation occur?

Answer 29

Over the entire surface of the ovary, except mare where only occurs from ovulation fossa

Question 30

What initiates ovulation?

Answer 30

Th LH surge, which is stimualted by oestradiol in the absence of progesterone

Question 31

When does the LH surge occur?

Answer 31

• Around the start of oestrus in cow, sheep, pig and dog

- Gradual increase in LH during oestrus in mares

Question 32

What is the LH surge to ovulation interval in cows?

Answer 32

24-30 hours after LH surge

Question 33

What is the LH surge to ovulation interval in mares?

Answer 33

LH levels elevated 5-6 days around ovulation

Question 34

What is the LH surge to ovulation interval in dogs?

Answer 34

Variable, 24-96 hours after LH surge

Question 35

Describe the ovulation event

Answer 35

• High LH leads to fluid accumulation in maturing follicles, increased pressure
• Surface connective tissue of ovary weakened by increased synthesis of collagenase
• Ovarian smooth muscle cells contract, blood flow increases, local fluid accumulates
• Follicular wall bursts
• Oocyte and granuloma cells released from GC anchor point
• Oocyte carried with follicular fluid into peritoneal cavity
• Captured by fimbraie of infundibulum

Question 36

Describe spontaneous ovulation

Answer 36

• Hormone induced
• Reduced production of progesterone from CL due to luteolysis
• Increased follicular dvelopment
• Oestradiol in absence of progesterone leading to LH surge

Question 37

Describe induced ovulation

Answer 37

• Can be induced by coitus e.g. cats
• Single act of intercourse leads to LH surge in cat
• Sensory stimulation stimulates surge centre
• Multiple copulations leads to better responding LH surge

Question 38

Describe the formation of the CL

Answer 38

• Basement membrane breakdown
• Lutenisation and migration
• Granulosa avascular) become large luteal cells (hypertrophy)
• Theca cells form small luteal cells (proliferation)
• Rapid proliferation and hypertrophy of blood vessels when basement membrane breaks down
• Intense angiogenesis
• Steroidogenesis switch and increase (oestradiol to progesterone)

Question 39

What are the different stages of the corpus luteum?

Answer 39

• Corpus haemorrhagicum (early)
• Corpus luteum (main one)
• Corpus albicans (late, regressing)

Question 40

What hormones support the growth and function of the CL?

Answer 40

• LH
• Prolactin in some species (rodents)
• Other modulatory hormones: IGF-I, GH, PGE2

Question 41

What cells of the CL produce the majority of progesterone?

Answer 41

Large luteal cells

Question 42

What stimulates the production of progesterone?

Answer 42

LH (small luteal cells only)

Question 43

What is the key regulatory step in progesterone production?

Answer 43

• Transfer of cholesterol to mitochondria

- Steroid acute regulatory factor

Question 44

Describe luteal development in the bitch

Answer 44

• Pre-ovulatory lutenisation leads to earlier progesterone rise
• Thick wall (hypertrphy) and granulosa folds
• No follicular collapse
• Central luteal cavity

Question 45

What is the regression of the CL called?

Answer 45

Luteolysis

Question 46

When is luteolysis induced?

Answer 46

Following ovulation in the absence of an embryo

Question 47

What does luteolysis enable?

Answer 47

• Pre-ovulatory follicular development allowing ovulation to occur
• Return to oestrus

Question 48

What is the key luteolytic hormone?

Answer 48

Prostaglandin F2 alpha (PGF2a)

Question 49

How is endometrial PGF2a release stimulated?

Answer 49

• Luteal oxytocin stimulates oxytocin reeceptor in endometrium
• Release of PGF2a
• Positive feedback
  loop: luteolysis stimulates more release of oxytocin

Question 50

Describe the utero-ovarian vascular counter-current system

Answer 50

• PGF2a from uterus to ipsilateral ovary through vascular counter-current exchange
• From endometrium enters uterine vein, then to ovarian artery (diffusion in counter current)
• PGF2a delivered in high conc while bypassing general circulation

Question 51

What is the importance of the utero-ovarian vascular counter current system?

Answer 51

• 98-99% PGF2a denatured by one passage through lungs
• Need to maintain high levels
• Is not present in mare as PGF2a not metabolised to same degree

Question 52

Describe the structural component of the luteolysis mechanism

Answer 52

• Reduced blood flow
• Increase in macrophages and lymphocytes
• Apoptosis and tissue resorption
• Corpus albicans

Question 53

Describe the functional component of the luteolysis mechanism

Answer 53

• Mediated by down-regulation of steroidogenic enzymes

- Rapid fall in progesterone

Question 54

What is a key trigger for luteolysis?

Answer 54

• Up-regulation of oxytocin receptors in the endometrium (before fall in progesterone)
• Progesterone loses ability to suppress the expression of oxytocin receptors

Question 55

Describe PGF receptor expression on the CL

Answer 55

• Not always expressed
• CL only responds at certain times
• Can induce luteolysis in these times with exogenous PGF2a

Question 56

What occurs during metoestrus?

Answer 56

• Cells of follicle transformed into luteal cells
• Form CL
• P4 increasing

Question 57

What occurs during dioestrus?

Answer 57

Fully functional CL and maximal P4 secretion

Question 58

What is the lenght of the oestrus cycle in the

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 58

a. 17 days
b. 21 days
c. 21 days
d. 21 days
e. 6-7 months

Question 59

How long is oestrus in the

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 59

a. 24-36 hrs
b. 8 hours
d. 4-8 days
c. 2-3 days
e. 7-14 days

Question 60

How long is the follicular phase in the

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 60

a. 4 days
b. 1 day
c. 6-10 days
d. 5-8 days
e. 18 days

Question 61

How big is the ovulatory follicle in

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 61

a. 6-8mm
b. 9-13mm
c. 10-15mm
d. 8-10mm
e. 4-13 mm

Question 62

How many follicles are ovulated in the

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 62

a. 2-3
b. 1
c. 1
d. 30-50
e. 2-15

Question 63

How long is the luteal phase in the

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 63

a. 13 days
b. 19-20 days
c. 14 days
d. 15 days
e. 65 days

Question 64

How big is the mature CL in the

a. ewe
b. cow
c. mare
d. sow
e. bitch

Answer 64

a. 7-9mm
b. 20-25mm
c. 40-50mm
d. 10-12mm
e. 6-7mm

Question 65

Define the oestrus cycle

Answer 65

The repetitive patterns of hormones and behaviour which lead to ovulation

Question 66

How can oestrus be described?

Answer 66

• Behaviour
• Hormones
• State of ovaries (follicle or CL)

Question 67

What is pro-oestrus?

Answer 67

The phase immediately before oestrus

Question 68

In what order do the phases of the oestrus cyce occur?

Answer 68

• Pro-oestrus
• Oestrus
• Met-oestrus
• Dioestrus

Question 69

Describe the behaviour of the oestrus female

Answer 69

• Receptive to male
• High levels of oestrogens
• Will stand to be covered
• Clitoral winking

Question 70

Describe the behaviour of the dioestrus female

Answer 70

• Rejects male (can be violent)

- High levels of progesterone

Question 71

When is progesterone high and when is it low?

Answer 71

• Very low in oestrus

- Once ovulation occurs, CLs produce lots of progesterone, high in dioestrus

Question 72

When is oestrogen high and when is it low?

Answer 72

• High in oestrus

- Declines following ovulation (to baseline)

Question 73

What occurs at day 0 of the oestrus cycle?

Answer 73

Ovulation

Question 74

What is the function of the gonadotrophins?

Answer 74

• Stimulate development of the gonads

- FSH and LH

Question 75

What stages of the oestrus cycle make up the luteal phase?

Answer 75

Metoestrus and dioestrus

Question 76

What stages of the oestrus cycle make up the follicular phase?

Answer 76

Pro-oestrus and oestrus

Question 77

What happens in the follicular phase?

Answer 77

• Ovarian follicles mature
• Secrete increasing concentrations of oestradiol into blood
• Oestrus behaviour
• High oestrogen

Question 78

What happens in the luteal phase?

Answer 78

• Ovarian follicles ovulate to produce CLs
• CLs secrete progesterone into blood
• Ends with luteolysis by PGF2a
• Follicles continue to develop in this stage but fail to ovulate (follicular waves)
• High progesterone

Question 79

What are the actions of oestrogen?

Answer 79

• Behaviour for mating
• Prepare external genitalia and vagina for mating (increased blood flow)
• Increase mucus production in the cervical glands
• Bleeding in dogs and cows but not mestruation
• Stimulates follicular growth and maturation
• Prepares uterine environment for sperm transport and implantation of oocyte
• Growth and development of mammary tissue
• Preparation of uterus for parturition

Question 80

What are the functions of progesterone?

Answer 80

• Increase secretion by uterine glands
• Prepares uterus for zygote
• Behaviour to reject male
• Maintenance of pregnancy

Question 81

Give a brief summary of the oestrus cycle

Answer 81

• Elevation of oestradiol and FSH = follicular development (follciular phase) and oestrus behaviour
• LH surge induces ovulation
• CL formed, secretes progesterone = luteal phase
• Female behaviour changes to reject male as enters dioestrus
• At end of dioestrus in absence of pregnancy, CL lysed by PGF2a
• Progesterone levels decline, female accepts male, follicualr development begins again

Question 82

What hormonal changes occur if the animal is pregnant?

Answer 82

• Conceptus releases maternal recognition of pregnancy signal in mid-dioestrus
• Prevents luteolysis
• Maintains high progesterone

Question 83

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

Answer 83

• Keeps cervix closed

- Alows pregnancy to develop until placenta takes over progesterone production

Question 84

Define polyoestrus

Answer 84

Multiple cycles throughout the year e.g. cow, pig, rodents

Question 85

Define seasonal polyoestrus

Answer 85

Multiple cycles during one season

- Can be long or short day

Question 86

Give examples of long vs short day breeders

Answer 86

• Long: mares, in spring

- Short: ewes, in autumn

Question 87

Define monooestrus

Answer 87

Infrequent cycles, independent of season, 1 or 2 cycles throughout year
e.g. bitch

Question 88

Give an example of induced breeders

Answer 88

Cats

Question 89

Describe the oestrus cycles of seasonal polyoestrus breeders

Answer 89

• Show regular cycles in season
• When season changes, undergo transition phase where hormones and ovaries change due to daylight
• Prolonged period of anoestrus

Question 90

What is the effect of seasonal breeding?

Answer 90

The offspring are born at times where the conditions are favourable

Question 91

How come mares and ewes both give birth in spring?

Answer 91

• Mare has 11 month gestation so conception in spring means will be bron in spring of next year
• Ewe has shorter gestation so conception in autumn means birth in spring

Question 92

What controls seasonality?

Answer 92

Length of daylight

Question 93

Explain how light controls seasonality

Answer 93

• Light detected by retina
• Signal to pineal gland
• Melatonin release acts on hypothalamic centre (specific to type of breeder)
• Either stimulates or inhibits release of gonadotrophins
• Release of oestrogen or P4 accordingly
• Direct effect on uterus

Question 94

For the mare, give the

• type of cycling
• length of oestrus
• lenght of dioestrus
• total cycle length
• timing of ovulation

Answer 94

• Seasonal polyoestrus, long day
• Oestrus: 6 days
• Dioestrus: 15 days
• Total lenght: 21-23 days
• Ovulation: last day of oestrus/before end of oestrus

Question 95

For the cow, give the

• type of cycling
• length of oestrus
• lenght of dioestrus
• total cycle length
• timing of ovulation

Answer 95

• Polyoestrus
• Oestrus: 8 hours
• Dioestrus: 19-20 days
• Total cycle length: 18-24 days
• Ovulation: 12 hours after the end of oestrus (24-32 hours after onset)

Question 96

For the ewe, give tha

• type of cycling
• length of oestrus
• lenght of dioestrus
• total cycle length
• timing of ovulation

Answer 96

• Seasonal polyoestrus (short day)
• Oestrus: 30 hours
• Dioestrus: 15-16 days
• Total cycle length: 17 days
• Ovulation occurs towards the end of oestrus

Question 97

For the sow, give the

• type of cycling
• length of oestrus
• lenght of dioestrus
• total cycle length
• timing of ovulation

Answer 97

• Polyoestrus
• Oestrus: 53 hours
• Dioestrus: 19 days
• Total cycle length: 21 days
• Ovulation around 35-45 hours after start of oestrus

Question 98

For the nanny, give the

• type of cycling
• length of oestrus
• lenght of dioestrus
• total cycle length
• timing of ovulation

Answer 98

• Seasonal polyoestrus, short day
• Oestrus: 30-40 hours
• Dioestrus: 20-21 days
• Total cycle length: 21-22 days
• Ovulation around 12-36 hours after the strt of oestrus

Question 99

For the bitch, give the

• type of cycling
• length of pro-oestrus
• lenght of oestrus
• timing of ovulation
• length of metoestrus
• length of anoestrus
• length of interoestrus

Answer 99

• Monooestrus
• Prooestrus: 9 days
• Oestrus: 9 days
• Ovulation 1-2 days after onset of oestrus
• Met-oestrus: 70-80 days if measured by CL regression, 130-140 days if measured by endometrial repair
• Anoestrus: 3 months
• Interoestrus: 7 months

Question 100

For the queen give the

• type of cycling
• length of oestrus
• lenght of dioestrus
• total cycle length
• timing of ovulation

Answer 100

• Seasonal polyoestrus, long day (March - Sept)
• Oestrus: 7-10 days
• Dioestrus: 10-14 days
• Total cycle length: 21 days
• Ovulation dependent on mating (induced ovulators)

Question 101

For the jill, give the

• type of cycling
• lenght of oestrus
• total cycle length
• timing of ovulation

Answer 101

• Seasonal polyoestrus
• Oestrus: if mated 14 days, if unmated 6 months or under
• Induced ovulators, 30-40 hours after mating