LEC 1_241008_STG411 (3) PDF

Summary

This document is a lecture on female reproductive physiology for a veterinary medicine undergraduate level course at King Salman International University, details reproduction mechanisms and hormones in animals with additional data.

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Faculty of Veterinary Medicine
Level 4: Theriogenology (STG 411)
LEC 1: Female Reproductive Physiology

Dr. AHMED HASSANEEN Date: 07/10/2024

1
 Estimated world livestock numbers From 1990 to
and human population
10 2024
Number in billion

8 How much increase 62.9 % ▪ Cattle: 30 %
6
from 1990 to 2012 ? ▪ Sheep goats: 29%
1990
2000
▪ Pigs: 21%
4
20.6 % 2012
2 16.5 %
13.8 %
0 ▪ Human population: 86%
Cattle Sheep Pigs Human
Goats
Food and Agriculture Organization of the United Nation (FAO),
http://www.fao.org/ag/againfo/themes/en/meat/backgr_sources.html

2
 Cow fertility
80
70 Decreasing
Cow fertility (%)

60 France
Spain
50
Ireland
40
Canada
30 United Kingdom
20 Sweden
10 Japan (Beef)
0 New York, USA

Heriberto R. Martinez et al. Trends of fertility decrease,
(2013), Lucy MC. Reproductive Loss in High-Producing Dairy
Year cattle. J Dairy Sci. 2001; 84: 1277-1293,

Data : Livestock Improvement Association of Japan.inc.

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Consumption and production of beef cows in
Egypt (2011 – 2015)
Number in thousand

The Cattle Site (2016) USDA
GAIN: Egypt livestock and
products annual 2015.
Retrieved from
http://www.thecattlesite.com/r
eports/ ?id=4350

Year

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Consumption and production of beef cows in
Egypt (2016 – 2023)

The Cattle Site (2024) USDA
GAIN: Egypt livestock and
products annual 2023.
Retrieved from
http://www.thecattlesite.com

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 Functional anatomy
Brain

Hypothalamus

Pituitary gland Ovary

Ovary
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Reproduction is regulated by two main systems:
A. Nervous system: Central nervous sys. Cow brain
B. Endocrine System
1- Hypothalamus:

- Small part at the bottom of the brain
Anterior
- Located around 3rd ventricle and in-between pituitary
the optic chiasma and mammillary body Preovulatory LH Pulsatile
surge release gonadotropin release
- Produce gonadotropin releasing
hormone GnRH with two mode of Ovary
release tonic and surge
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2- Pituitary gland:

- Consists of 3 parts; anterior, intermediate and
posterior

- Located in a bony depression under the base of the brain

Anterior part (adenohypophysis)
- Produce FSH, LH, TSH, GH, PRL, ACTH
Posterior part (neurohypophysis)
- Release some neuroendocrine hormones such as oxytocin
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Neural & neuroendocrine reflex (Senger, 2003)

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3- Pineal gland:

- Located as a neuro-epithelial evagination from
the roof of the 3rd ventricle

- Act as a neuroendocrine transducer that receive neuronal
Stimuli concerning the changes of photoperiod

- Produce a monoamine hormone called melatonin

- Melatonin secretion controlled by period of lightening
1- Dark-light cycle
2- Seasonal cycle (short and long day)
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 Ovary
4- Gonads “ovaries”:

- Production of ova

- Secretion of sex steroid hormone “estrogen, progesterone”

- Secretion of inhibin and activin

- Secretion of oxytocin.
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 Reproductive hormones
Biochemical classification:
1- Proteins
Peptides “gonadotropin and oxytocin”
Glycoproteins “FSH and LH”
2- Lipids
From cholesterol as Steroids hormones
“progesterone and estrogen”
From Arachidonic acid “Prostaglandins”
3- Monoamine “melatonin”
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 Reproductive hormones
Classification according to mode of action:
1- Neural communication
Through synapses such as neurotransmitter
2- Endocrine
Through blood
3- Paracrine
Affecting neighboring cells
4- Autocrine
Affecting the same cell
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 A- Hypothalamic Hormones:
1- Gonadotropin releasing hormone “GnRH”
1. It is a decapeptide secreted from preoptic
area, suprachiasmatic nucleus, and median
eminence
2. Has two mode of release
1. Tonic mode “stimulate tonic LH and FSH”
2. Surge mode “stimulate surge LH”
3. Clinical application:
1. Synchronization
2. Inactive ovaries
3. Delayed ovulation
4. Cystic ovaries
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 A- Hypothalamic Hormones:

2- Gonadotropin inhibiting hormone “GnIH”
1. It is a peptide hormone known as RF-amid related
peptide
2. Originally known in birds and recently identified in
mammals including ruminants
3. It inhibit the release of LH and FSH

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 A- Hypothalamic Hormones:
3- Prolactin inhibiting factor PIF
1. It is secreted from the arcuate nucleus in the
hypothalamus
2. It is a peptide hormone like dopamine and
catecholamine
3. It regulate the secretion of prolactin

4- Prolactin releasing factor “PRF”
1. It is a peptide hormone
2. It stimulate the release of prolactin
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 B- Anterior pituitary Hormones:
1- Follicle stimulating hormone “FSH”
1. It is a glycoprotein hormone
2. It stimulate the growth and maturation of
ovarian follicles
3. It act with LH to stimulate estrogen release
from the follicles
4. Clinically used in superovulation
5. Commercially available from pituitary extract
and equine chorionic gonadotropin hormone
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 B- Anterior pituitary Hormones:
2- Luteinizing hormone “LH”
1. It is a glycoprotein hormone released in 2 modes
2. It stimulate theca cells growth and function in
the ovarian follicles
3. It act with FSH to stimulate estrogen release
from the follicles
4. Clinically used in treatment of cystic ovaries and
delayed ovulation
5. Commercially available from pituitary extract
and human chorionic gonadotropin hormone
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Two cells two gonadotropin secretions of estradiol

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 B- Anterior pituitary Hormones:
3- Prolactin hormone “PRL”
1. It is a polypeptide hormone.
2. It stimulate the milk secretion
3. It has a luetotrophic function

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 C- Posterior pituitary Hormones:
1- Oxytocin hormone
1. It is a polypeptide hormone 9 amino acids.
2. It is secreted from hypothalamus and released
from posterior pituitary. It is also secreted
from regressing corpus luteum in the ovary.
3. It stimulate contractions of myoepithelial cells,
Myometrium “during estrus and labor”
4. Clinically used in treatment of uterine inertia
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 C- Pineal glands Hormones:
1- Melatonin hormone
1. It is a monoamine hormone.
2. It is secreted and released from pineal gland.
3. Its secretion greatly increased during darkness and inhibit
gonadotropic activity in mare
4. It stimulate the onset of breeding season in short day
breeder
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 D- Gonadal Hormones:
1- Estrogen hormone (E2)
1. It is a steroid hormone.
2. It is secreted from the follicles.
3. Animal estrogen includes estradiol, estrone,
and estriol and plant estrogen found in
legumes as clover and alfa alfa
4. It stimulate the sexual behavior, secondary sex
character, development of uterine glands, duct
sys of the udder, uterine contractions
5. Clinically used in uterine inertia
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 D- Gonadal Hormones:
2- Progesterone hormone (P4)
1. It is a steroid hormone.
2. It is secreted from the corpus luteum.
3. It stimulate the maternal behavior, maintain of
pregnancy, alveolar part of the udder, inhibit
uterine contractions
4. Clinically used in estrus synchronization

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 D- Gonadal Hormones:

3- Relaxin hormone
1. It is a polypeptide hormone.
2. It is secreted from the corpus luteum uterus
and placenta during late pregnancy.
3. It stimulate the dilatation of cervix and
separation of pelvic symphysis before labor.

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 D- Gonadal Hormones:
4- Inhibin hormone
1. It is a glycoprotein hormone.
2. It is secreted from the granulosa cells of the follicles.
3. It selectively inhibit FSH release.
5- Activin hormone
1. It is a glycoprotein hormone.
2. It is secreted from the granulosa cells of the follicles.
3. It stimulate FSH release.
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 E- Uterine Hormones:

1- Prostaglandin hormone (PGF2α)
1. It is derived from arachidonic acid “unsaturated fatty acid”.
2. It is secreted from the endometrium.
3. It stimulate uterine contractions, has a natural luteolytic
function.
4. Clinically used in estrus synchronization and destruction of
corpus luteum
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 F- Placental Hormones:
1- Equine chorionic gonadotropin hormone “eCG” or “PMSG”
1. It is glycoprotein secreted from the endometrial cups from
day 40 - 85.
2. It is circulated in blood and not excreted in urine.
3. It has FSH and LH biological activity with more FSH like
function
4. Clinically used in superovulation

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 F- Placental Hormones:
2- Human chorionic gonadotropin hormone.
1. It is glycoprotein secreted from the trophoblast cells and
reach beak from day 50 - 70.
2. It is circulated in blood and excreted in urine.
3. It has LH like activity
4. Clinically used in delayed ovulation, cystic ovaries

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 F- Placental Hormones:
3- Placental lactogen hormone (human chorionic somatropin
“hCS”).
1. It is a protein secreted from the trophoblast cells.
2. It is circulated in blood until the last trimester.
3. It regulate the metabolism of protein and carbohydrate to fetus
4- Protein B.
1. It is a pregnancy specific protein
2. It prevent the regression of CL in early pregnancy
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 Biochemical
Hormone Source Action in female Effect on ovary
classification
Decapeptide Hypothalamus Release FSH and LH Follicular development;
GnRH
ovulation
Glycoprotein Pituitary Stimulates ovulation and Formation of CL
LH
P4 secretion
Glycoprotein Pituitary Follicular development, E2 Development of follicles
FSH
synthesis
Progesterone Steroid CL, placenta Maintenance of pregnancy Inhibits GnRH release
Steroid Follicle, Sexual behavior, uterine
Estradiol
placenta contraction, vasodilatation
hCG Glycoprotein Chorion ovarian P4 synthesis
eCG Glycoprotein Chorion Formation of accessory CL’s
PGF2a Prostaglandin Endometrium Destruction of CL (Luteolysis)
Glycoprotein Granulosa Inhibits FSH secretion and inhibit follicle development
Inhibin
cells
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 A. Reproductive cycles:
Each reproductive cycle is related to various phenomena:
1. Puberty and sexual maturity
2. Breeding season (seasonal breeders)
3. Estrous cycle
❑ Estrus detection
4. Physiological anoestrus

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B. Reproductive processes:
1. Follicular growth (folliculogensis)
2. Follicular dynamics (F. waves)
3. Oocyte maturation
4. Ovulation
5. Luteolysis
6. Fertilization
7. Maternal recognition of pregnancy
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 1. Puberty and sexual maturity
The age at which the animal is capable of sexual production, in
female, it means the age at which the female shows the signs of
heat and sexual receptivity

Sexual maturity is the time at which the female has a full
reproductive capacity for pregnancy and parturition.

The animal showed be used in breeding after the sexual maturity

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1.Species Factors affecting time of puberty:
Diff acc to the species (see table)
2.Breeds
Small breeds “Jersey” earlier than heavy “Friesian”
Dairy earlier “11-12 ms” than Beef breeds “14-15 ms”
3.Body weight
Increase body weight hasten the puberty
Cow 340 kg, ewe 30 kg, doe 25 kg, queen 2.5 kg
4.Environmental factors
Such as photoperiod in seasonal breeder
Ewe born in Jan reach puberty 8 months old while ewe born in
April reach puberty 5-6 months old 35
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 Endocrine mechanism of puberty:

1.Activation and maturation of GnRH neurons
2.Increase sensitivity of the ovarian receptors to gonadotropin
3.Decrease sensitivity of Hypothalamus and GnRH neurons to
negative feed back of ovarian estradiol

During pre-pubertal period the hypothalamus is highly
sensitive to estradiol leads to low GnRH and subsequently
low FSH and LH.
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 2. Breeding season “seasonal breeder”
Cows has no seasonality
Sheep, goats, horse, camel shows seasonality

The photoperiod affect breeding by:
1. Direct action on Hypothalamo-pituitary axis through
melatonin
2. Change sensitivity of CNS “hypothalamus” to negative
feed back of steroids

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 2. Breeding season “seasonal breeder”
Goats: in Egypt polyestrous
with high incidence during
December
Ewe: seasonal shortday breeder
in winter and autumn/fall
Mare: polyestrous with high
tendency as long day breeder
from February to August and
highest fertility from mid April
to July
She-camel: polyestrous with
high tendency in winter and 39
spring
40
 Estrus:
It is period of sexual receptivity
Lasts for one days.

It is characterized by high threshold levels of estrogen that
stimulate more FSH, LH, ------ increase inhibin ------------ selective
inhibition of FSH ----------- Surge LH ----------- Ovulation

Characterized by presence of dominant mature Graafian follicles
with absence of CL.
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 4. Physiological anestrus:
Condition when the female does not exhibit estrus

Anestrus may caused by
1. Gestational anestrus because of high P4 levels
2. Seasonal anestrus
3. Lactational anestrus: suckling stimulate maternal center and inhibit
GnRH

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