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Animal%20Science%20434%20Reproductive%20Physiology

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Animals are chimeric (WBC from other twin) TDF (SRY) expressed in both individuals ... SRY expressed from chimeric cells (Ovotestis) Testosterone produced ... – PowerPoint PPT presentation

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Title: Animal%20Science%20434%20Reproductive%20Physiology

1
Animal Science 434Reproductive Physiology

Lec 5 Embryogenesis of the Pituitary and Sexual
Development

2
Development of the Pituitary Gland
Infundibulum
Brain
Rathkes Pouch
Stomodeum
3
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4
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5
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7
Germ Cell Migration
Migration begins by the 4 week of gestation in
cow and human.
8
Migration from endoderm through mesoderm.
9
In birds the migration is via the blood stream.
10
Fetal Kidneys

Pronephros
regresses
Mesonephros
portions of reproductive tract
Metenephros
Adult kindney and urinary ducts

11
Development of Mesenephros and Metenephros
12
Jost Experiments
Mesonephric Ducts (Wolffian Ducts)
Paramesonephric Ducts (Mullerian Ducts)
13
Jost Experiments
Mesonephric Ducts (Wolffian Ducts)
Paramesonephric Ducts (Mullerian Ducts)
Testis
Ovary
Epididymis
Epididymis
Oviduct
Vas Deferens
Seminal Vesicles
Uterus
14
Sex Determination The Jost Paradigm
15
Chromosomal Sex

Single Pair of sex chromosomes
mammals, some but not all vertebrates
Sex is environmentally determined
sea worms, fish, reptiles
Multiple sex chromosomes
invertebrates, insects, reptiles
Haplodiploidy
bees, spiders

16
Chromosomal Sex

A. Drosophila
Sex depends on the number of X chromosomes
X or XY or XO ? Male
XX or XXX or XXY ? Female
B. Human (mammals)
XY or XXY or XXYY or XXXY or XXXXY ? Male
(testis)
XX or XXX ? Female (ovary)
XO ? Female with incomplete ovarian development
XXY or XXYY or XXXY or XXXXY ? testis but
impaired sperm production
C. Conclusion
The primary gene that controls testicular
differentiation is on the Y chromosome in mammals.

17
The Y Chromosome
A. Region coding for testicular development

Short arm of Y chromosome

H-Y Antigen
no longer believed to be involved
SRY
Codes for a DNA binding protein
acts as a transcription factor or assists other
transcription factors
the gene products which are transcribed regulate
primary sex chord differentiation (formation of
seminiferous tubules), androgen production and
Anti-Mullerian Hormone (AMH) production
in the absence of the SRY protein, primary sex
chord regress and secondary sex chords (egg
nests) develop

18
The Y Chromosome Cont.

B. Other genes on the Y chromosome
Spermatogenesis
androgen production
long bone growth

19
SRY and Birds

Birds
females ZW, males ZZ
W chromosome determines sex
SRY is found on the Z chromosome !
SRY is not the only sex determining gene in
animals

20
Gonadal Sex
21
Testis Determining Factor (SRY gene product)
XY Male
22
Testicular Development
Mesonephric Tubules
Mesonephric Duct (Wolffian Duct)
Rete Tubules
Mullerian Duct
Tunica Albuginea
Undifferentiated Sex Chords
23
Mesonephric Tubules
Rete Tubules
Wolffian Duct

Primary, Epithelial or
Medullary Sex Chords
Primordial germ cells
Sertoli Cells

Mullerian Duct
Tunica Albuginea
24
Hormonal Sex
25
Testis Determining Factor (SRY gene product)
XY Male
Testes develop
26
Wolffian Duct Cells
Nucleus
T
Testis
T
TR
27
Rete Tubules
Efferent Ducts (Vas Efferentia)
Epididymis
Seminiferous Tubules
Vas Deferens
Tunica Albuginea
28
Testis Determining Factor (SRY gene product)
XY Male
Testes develop
29
Vas efferentia
30
Female Development
No TDF
Testes Determining Factor
XX Female
31
Ovarian Development
Regressing Tubules
Mullerian Duct
Epithelial Sex Chords
Future Ovarian Cortex
Wolffian Duct
32
Regressing Tubules
Mullerian Duct
Regressing Epithelial Sex Chords
Future Ovarian Cortex
Regressing Wolffian Duct
33
Regressing Tubules
Primordial Follicles
Mullerian Duct
Regressing Epithelial Sex Chords
Future Ovarian Cortex
Regressing Wolffian Duct
Secondary or Cortical Sex Chords (egg nests)
34
Primordial Follicles
Mullerian Duct
Ovarian Medulla
Ovarian Cortex
Regressing Wolffian Duct
35
Development of the Uterus, Cervix and Vagina
Mullerian Duct
36
Fused Mullerian Duct
Hymen
37
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38
Reproductive tract develops outside
the peritoneum!
Broad Ligament Development (transverse anterior
section)
Ovary
Regressing Wolffian Duct
Mullerian Duct
39
Ovary
Regressing Wolffian Duct
Mullerian Duct
40
(Posterior Transverse Section)
Genital Fold (Future Broad Ligament)
Regressing Wolffian Duct
Mullerian Duct
41
Testis Determining Factor (SRY gene product)
No TDF
XX Female
XY Male
Testes develop
Ovaries Develop
No AMH
No Testosterone
Sertoli cells secrete anti-mullerian hormone (AMH)
AMH causes leydig cells to differentiate
Degeneration of Mullerian duct
Mullerian ducts become the oviducts, uterus,
cervix and part of the vagina
Degeneration of Wolffian duct
Testosterone
Development of male duct system
42
Phenotypic Sex
43
Testis Determining Factor (SRY gene product)
XY Male
Testes develop
Sertoli cells secrete anti-mullerian hormone (AMH)
AMH causes leydig cells to differentiate
Degeneration of Mullerian Duct
Testosterone
Development of male duct system
44
Wolffian Duct Cells
Nucleus
T
Testis
T
TR
45
Accessory Sex Glands and External Genitalia Cells
Nucleus
T
Testis
D
T
DR
5??- Reductase
Prostate, Cowpers Gland
46
Significance of DHT

Androgen receptor has a higher affinity for DHT
Can get effects with low levels of circulating
testosterone
Secondary sex characteristic tissue in the male
expresses 5a-reductase

47
External Genitalia Differentiation
48
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50
Testis Determining Factor (SRY gene product)
No TDF
XX Female
XY Male
Testes develop
Ovaries Develop
No AMH
No Testosterone
Sertoli cells secrete anti-mullerian hormone (AMH)
AMH causes leydig cells to differentiate
Degeneration of Mullerian duct
Mullerian ducts become the oviducts, uterus,
cervix and part of the vagina
Degeneration of Wolffian duct
Testosterone
Development of male duct system
51
Brain or Behavioral Sex
52
Brain and Behavioral Sex Differentiation
Genetics
Gonadal Steroid Hormones
Sexual Behavior
Brain Structure
Experience
53
Brain Sexual Differentiation

Rat female
Give testosterone shortly after birth
fail to copulate or cycle like female as adult
Sexually dimorphic nucleus
Human male and female differences in behaviors
aggression
childhood play
3D visual rotation

54
Descent of the Testis into the Scrotum
55
Testicular Descent
Fusion of the tunica albuginea and peritoneum to
form the visceral tunica vaginalis
56
Spermatic Artery
Front View
Fusion of Peritoneum and Gubernaculum
Testis
Gubernaculum
Peritoneum
Inguinal Ring
57
Rapid growth of gubernaculum
Spermatic Artery
Peritoneum
Visceral Growth
Visceral Growth
Inguinal Ring
Testis
Peritoneum
Gubernaculum (rapid growth)
Parietal Tunica Vaginalis
Testis is pulled down to the inguinal ring.
Visceral Tunica Vaginalis
58
Gubernaculum regresses
Testis pulled into scrotum
59
Continued regression of Gubernaculum
Testis pulled deeper into Scrotum
Vaginal Process attaches to Scrotum
Space between Visceral and Parietal T.V. is
continuous with Peritoneum
60
Failure or Problems With Testicular Descent

Cryptorchid - highly heritable
Unilateral or bilateral
Germ cells fail to multiply and then die, sertoli
cells only in seminferous tubules
High percentage develop testicular cancer
Surgical correction possible but does not reduce
cancer risk

61
Normal Dog Seminiferous Tubule
62
Cryptochid Dog Seminiferous Tubule
63
Failure or Problems With Testicular Descent

Cryptorchid - highly heritable
Unilateral or bilateral
Germ cells fail to multiply and then die, sertoli
cells only in seminferous tubules
High percentage develop testicular cancer
Surgical correction possible but does not reduce
cancer risk