Sexual Differentiation

Question 1

What are the 3 levels of Sexual Differentiation

Answer 1

1. Gonads
2. Internal Genitalia
3. External Genitalia

Question 2

What is meant by the ‘bipotential gonads’

Answer 2

That we all have the potential to be male or female! Irrespective of your chromosomes.

Bipotential Gonads <6wks

Bipotential Internal genitalia <7wks

Bipotential Eternal Genitalia <8wks

Question 3

What determines internal and external sexual differentiation?

Answer 3

The Testis. Dominant > male

An ovary or NO gonad will result in female internal and external genitalia.

Question 4

Describe the origin of the bipotential gonad/genital ridge

Answer 4

• Arise as paired structures in intermediate mesoderm
• Genital ridge area can be divided into 3 (from ant- post)
  
  • Pronephros (caudal end forms adrenals)
  • Mesonephros (central region forms the gonads and internal reproductive structures; wolffian + mullerian ducts
  • Metanephros (post end forms kidneys)
• Therefore if you’ve got a defct in your gonads, you could have a defect in your adrenals or your kidneys, look at these structures as a signal of this

Question 5

Describe the origin of the bipotential gonad/genital ridge

Answer 5

• The development of the GR is dependent on the activation of nuclear transcription factors
• These proteins bind and form part of the protein complex around DNA altering gene transcription/expression
• Because adrenal, gonadal and renal organogenesis occurs from the GR, their development occurs from similar transcription factors.
  Mutations in these affect more then one organ system

Question 6

4 main genes involved in gonadal development?

Answer 6

1. IGFR1 insulin like growth factor receptor 1
2. Wilms Tumour 1 (WT1) kidney tumour you get in kids
3. Steroidigenic Factor 1 (SF1) found in lots of tissues
4. DAX1

These are all important in getting mesoderm → genital ridge.
From genital ridge you get your ovaries and testis forming

Question 7

At the same time as the int. mesoderm is forming the GR, _____ cells from the _________.

Answer 7

At the same time as the int. mesoderm is forming the GR, germ cells from the yolk sac endoderm.

They migrate up a conc gradient to Stem Cell Factor, via C-kit receptors, has a role in ovarian development.

Question 8

What will loss of function in a gene that is critical to forming the gonadal ridge cause?

Answer 8

No gonads formed ⇒ female internal and external genitalia

Question 9

What initiates gonadal determination to either a testis or ovarys?

Answer 9

• Testicular determination* → initiated in most mammals by SRY (sex determining region of Y)
• Ovarian Initiator* → unknown (maybe FOXL2)
• Multiple genes are involved in each process
  
  • earlier + greater gene activation in testicular development
• More is know about testis formation

Question 10

Describe and draw out this image (MEMORISE)

Answer 10

Ovaries: Driven by FOXL2. Also by Bcatenin**, RSPO1, DAX-1, WnT4
♦ As well as driving ovarian development it inhibits testicular formation

Testis: Driven by SRY (only present for first 24hrs), who’s main job is to activate SOX-9. Also SF-1 and FGF9
♦♦As well as driving Testicular development it inhibits ovarian formation

Question 11

SRY of the male gonadal determination

Answer 11

SRY is the sex determining region of Y, and is the initial gene determining male gonadal development.

Identified in 1991 from XXmales (chromosome been transfered Y→X during recombination)

FOund solely in the pre-Sertoli cell in the testis and activation precedes development of the Sertoli cell (which is already the 1^st of testicular cells)

Sertoli Cells: testis ‘regulator cell’ and blood-testis barrier (prevents WBC interacting with sperm and provides nutrients)

Question 12

SRY’s main role is?

Answer 12

To stimulate SOX-9

SOX-9: autosomal gene that once stimulate`d completes testicular differentiation

Initial SOX-9 transcription from SF-1
Then hugely upregulated by SRY
Finally upregulates itself via a positive feedback loop and the stimulation of prostaglandin D2 and FGF-9

These ALL inhibit ovarian Transcription Factors also

Question 13

Prostaglandin D2 role and origin?

Answer 13

Produced from pre-sertoli cells.

Increases SOX-9 in a paracrine manner, (binds to PG receptors on cells)

Recruits further undifferentiated cells → sertoli cell lineage

A cascade effect.

Question 14

FGF-9

Answer 14

FGF-9 is a crucial growth factor for male sex determination, also acts as the earliest mitogen in the XY gonad.

Secreted from pre-Sertoli cells, enhances proliferation of SF-1 positive cells of coelomic epithelium → increased number of precursors of Sry-expressing cells and other gonadal cells

Therefore involves in both sex determination and testis differentiation

Question 15

Leydig cell equivalent to ______
Sertoli Cells equivalent to _____

What do Leydig cells do?

Answer 15

Leydig cell equivalent to Thecal cell
​Sertoli Cells equivalent to Follicular cell

They are your ‘steroid factory’ (steroidogenic function of testis), and arise from within the interstitium of the testis, outside the cords.

Initial fetal Leydig cells regress and are replaced by adult Leydig cells post natally.

They make Testosterone!! (sertoli make everything else)

Question 16

What will loss of function in a gene critical to forming the testis cause (eg SRY or SOX-9)??

Answer 16

No testis, so you have NO gonads.

Female int/ext genitalia

Question 17

2 Main functions of the ovary

It’s functional unit

Answer 17

1. Production of steroid hormone (eostrogens)
2. Generation of mature oocytes capable of being fertilised

Functional Unit: Ovarian Follicle

• Mature Oocyte + granulosa and thecal cells

In contrast to the testis, ovarian follicles only commence differentiation post birth

Also the ovary DOESN’t affect internal genitalia development (hormones surrounding fetus is mainly maternal)

Question 18

What is ‘The Battle of the Sexes’?

Answer 18

Mutual transcriptional antagonism occurs between male and femal gonadal factors

• Loss of FOXL2 in adult mice caused ovaries → testicular functions
• Shows antagonism may continue throughout llife (and if you lose repression….)

Question 19

At the same time as the bipotential gonads differentiating you have Primordial Germ Cells (PGC) arising.

Answer 19

• Arise from the allantois (yolk sac) not that Genital ridge
• Survival is dependent on the c-KIT/Steel factor (Stem Cell factor) which is uses for it’s conc gradient to migrate down.
• Once inside the genital ridge the cellslose mobility and aggregate together

1. In the testis germ cells enter cords and have mitotic arrest
2. In the Ovaries germ cells continue to early meiosis before arresting

Question 20

Spermatogenic commitment and Primordial germ cells

Answer 20

• Spermatogenic commitment is determined soon after reaching the genital ridge
• So PGCs (from either sex) removed early from the GR or during migration → oocytes!
• No role in determining testis structure but are involved in ovarian development. (if not there only ovarian stromal tissue evolves)
  
  • important for follicles; thecal + follicular cells