Sexual Differentiation and Disorders

Question 1

What is sexual determination?

Answer 1

Genetically controlled process dependent on the ‘switch’ on the Y chromosome. Chromosomal determination of male or female.

Question 2

What is sexual differentiation?

Answer 2

The process by which internal and external genitalia develop as male or female.

Question 3

Which gene creates the testis?

Answer 3

The SRY gene

Question 4

What is SRY?

Answer 4

It is a sex determining region Y that switches on briefly during embryo development to make the gonad into a testis. In its absence, an ovary is formed.

Question 5

What cells does the testis develop?

Answer 5

Sertoli cells and Leydig cells

Question 6

What hormone does Sertoli cells produce?

Answer 6

anti-Mullerian hormone (AMH)

Question 7

What hormone does Leydig cells produce?

Answer 7

Testosterone

Question 8

Where is the SRY gene located?

Answer 8

On the Y chromosome

Question 9

What do the products of the cells the testis influence lead to the development of?

Answer 9

The products of the testis influence further gonadal and phenotypic sexual development.

Question 10

Describe the start of gonadal development

Answer 10

A pair of gonads develop that are bipotential. These derive from common somatic mesenchymal tissue precursors called the genital ridge primordia at 3-4 and a half weeks on the posterior wall of lower thoracic lumber region.

Question 11

What are the three waves of cells that invade the genital ridge?

Answer 11

• Primordial Germ Cells: become either the sperm or oocytes
• Primitive Sex cords: become either sertoli or granulosa cells
• Mesonephric cells: become either leydig or theca cells

Question 12

What is the primordial germ cell migration stage?

Answer 12

• small cluster of cells in the epitelium of the yolk sac
• expands by mitosis at around 3 weeks
• migrate to the connective tissue of the hind gut to the region of the developing kidney
• to the genital ridge - completed by 6 weeks

Question 13

What is the primitive sex cords stage?

SRY or no-SRY expression?

Answer 13

• Germinal epithelium cells that overly the genital ridge mesenchyme migrate inwards as columns called the primitive sex cords.
• If there is SRY expression, penetrate the medullar mesenchyme and surround the PGCs to form testis cords and become sertoli cells expressing AMH.
• If no SRY expression, sex cords are ill-defined and do not penetrate but instead condense in the cortex as small clusters around PGCs. These become granulosa cells.

Question 14

What is the mesonephric cells stage?
What happens in males?
What happens in females?

Answer 14

• Originate in the mesonephric primodrium that is lateral to the genital ridges
• MALES: Act under the influence of pre-sertoli cells that express SRY to form; vascular tissue, leydig cells, basement membrane
• FEMALES: form vascular tissue and theca cells

Question 15

What does the basement membrane in males form?

Answer 15

The seminiferous tubules and rete-testis.

Question 16

What do theca cells do?

Answer 16

They synthesise androstenedione that is a substrate for estradiol production by granulosa.

Question 17

Summarise the formation of the male gonads

Answer 17

Primordial Germ Cells - form spermatozoa
Primitive sex cords - form the sertoli cells that express SRY and release AMH.
Mesonephric cells form leydig cells that release testosterone

Question 18

Summarise the formation of the female gonads

Answer 18

Primordial Germ Cells -> Oocytes
Primitive sex cords -> form the granulosa cells that release estradiol
Mesonephric cells form the theca cells that release androstenedione

Question 19

What are the two main structures involved in forming the reproductive organs?

Answer 19

• Mullerian ducts

- Wollfian ducts

Question 20

What do the Mullerian ducts do?

Answer 20

• important in females

- inhibited in the male by AMH

Question 21

What do the Wolffian ducts do?

Answer 21

• Important in the male stimualted by testosterone

- Lack of stimulation by testosterone means regression in female

Question 22

Describe internal sexual differentiation

Answer 22

• Testosterone is converted in the genital skin to the more potent androgen dihydrotestosterone. It binds to the testosterone receptor. This causes the differentiation of the male external genitalia:
• Clitoral area enlarges into penis
• Labia fuse and become ruggated to form scrotum
• Prostate forms

Question 23

Summarise the role of AMH

Answer 23

Regression of mullarian ducts

Question 24

Summarise the role of testosterone

Answer 24

Differentiation and growth of wolffian duct structures, seminal vesicles and vas deferens.

Question 25

Summarise the role of DHT

Answer 25

Fusion of labial scrotal folds and growth of phallus and prostate

Question 26

Summarise the role of mullarian ducts

Answer 26

Differentiation and growth into uterine tubes, uterus and upper 1/3 of vagina

Question 27

Summarise the lack of androgen

Answer 27

Leads to vagina, labia and clitoris

Question 28

What happens to the wolffian ducts in the ovary?

Answer 28

Regression

Question 29

What are patients with sexual differentiation disorders called?

Answer 29

Disorder of sexual differentiation or DSD

Question 30

What terms are NOT used for patients with DSD?

Answer 30

Pseudohermaphrodite or testicular feminisation

Question 31

What is gonadal dysgenesis?

Answer 31

Sexual differentiation is incomplete.

• Missing SRY in male
• Partial or complete deletion of the second X in females
• Used as a general term for the abnormal development of gonads

Question 32

What is sex reversal?

Answer 32

Phenotype does not match genotype

Question 33

What is intersex?

Answer 33

Have some components of both tracts or have ambiguous genitalia. Sex of infant is difficult to determine.

Question 34

What is complete androgen insensitivity syndrome?

Answer 34

Patient appears completely at birth
Assigned female gender despite being XY.
Have undescended testes
Usually present with primary amenorrhoea
Lack of body hair can be a sign
Ultrasound scan and karyotype with male levels of androgens
Never respond to androgen so appear and often feel female

Question 35

What is primary amenorrhoea?

Answer 35

Lack of menstrual cycle

Question 36

What is partial androgen insensitivity syndrome?

Answer 36

• Incidence is unknown as probably a spectrum
• Present with varying degrees of penile and scrotal development from ambiguous genitalia to large clitoris.
• Surgery was universal but now fortunaly considered optional - decisions made by patients and difficult

Question 37

What happens if there is a 5-alpha-reductase deficiency?

Answer 37

Testes form, AMH acts, testosterone acts but it isn’t converted into DHT so internal structures form but external structures do not form.
May appear female or may have ambiguous genitalia.

Question 38

What happens at puberty with 5-alpha-reductase deficiency?

Answer 38

Need to assess potential as high testosterone level which will occur at adrenarche and puberty may induce virilisation

Question 39

What is turner syndrome?

Answer 39

• 1:3000
• XO have failure of ovarian function
• ‘Streak’ ovaries = ovarian dysgenesis - illustrates that we need 2 X’s for ovarian development.
• Uterus and tubes are present but small, other defects in growth and development.
• May be fertile - many have mosaicism
• Hormone support of bones and uterus

Question 40

What does corticotrophin releasing hormone (CRH) do?

Answer 40

Stimulates pituitary to secrete ACTH

Question 41

What does adrenocorticotrophic hormone (ACTH) do?

Answer 41

Rapid uptake of cholesterol into the adrenal cortex. Upregulates cholesterol side-chain cleavage enzyme (P450scc). Increases glucocorticoid secretion.

Question 42

What is congenital adrenal hyperplasia?

Answer 42

Congenital adrenal hyperplasia are any of several autosomal recessive diseases resulting from mutations of genes for enzymes mediating the biochemical steps of production of mineralocorticoids, glucocorticoids or sex steroids from cholesterol by the adrenal glands (steroidogenesis).

Question 43

What happens if the enzyme is blocked in CAH?

Answer 43

Children may be wrongly gender assigned at birth, or may have ambiguous genitalia.

Question 44

What happens when there is a lack of aldosterone in CAH?

Answer 44

There is a possibilty of ‘self-wasting’ due to lack of aldosterone, this can be lethal.

Question 45

How is CAH treated?

Answer 45

Glucocorticoids to correct feedback.