Spermatogenesis and the Male Tract I

Question 1

Testis
Main Exocrine and ​Endocrine product

Answer 1

Exocrine: spermatozoa

Endocrine gland: mainly testosterone

Question 2

Germ cell origin and early development of the Testis.

Answer 2

Germ cells can dervie to be M/F so early on cannot be distinguished.

Found outside the embryo on the posterior side of the yolk sac.

• Therefore these germ cells migrate early on, up around the hindgut, through the dorsal mesentry, opposite to where the aorta is developing, split and then come to lie in two long genital ridges (in what will become the pelvic cavity).*
• They take up an association with migrating epithelial cells covering the genital ridge.*

If a female, the epi. cells become Granulosa cells of the follicle
if a male, the epi cells become Sertoli Cells feed+nourish development

Question 3

Describe the structure and subsequent differentiated of an ‘indifferent Gonad’

Answer 3

Genital ridge swells and shortens, and hangs from a mesentry of the body wall.

Germ cells (with their epi. associations) are distributed all over the gonad. Through gene signals, you develop into a specific gender.

If Ovary: germ cells are spread around the edge of the structure

If Testis: germ cells cluster and form cords in the centre (forerunner of the seminiferous tubules)

Question 4

What are the origins of the these early development Testis Cell Types.

1. Spermatogonia
2. Sertoli Cells
3. Leydig Cells
4. Myeloid Cells

Answer 4

1. Spermatogonia from Germ cells
2. Sertoli Cells from epithelial cells
3. Leydig Cells from Interstitual tissue between cords
4. Myeloid Cells from interstitual tissue between cords wrap around seminiferous tubules; are contractile

Question 5

When and how does the descent of the Testis occur?

Answer 5

In the 7^th to 8^th month of Fetal Life.

1. Testis in the abdominal position starts to move
2. Move inferiorly, come up against the lower abdominal wall.
3. A weakening will form, the inguinal canal develops
4. They move outside of the body, into the scrotal sacs (as the temperature is lower which is required for spermatogenesis)

Question 6

What controls the Descent of the Testis?

Answer 6

This is under Hormonal control:
From abdominal cavity → internal inguinal ring: Anti-mullerian Hormone (AMH)
From inguinal canal to scrotal sac: Testosterone

Mechanism unclear, but we know they influence/act on the gubernaculum.

gubernaculum: Attached to the lower pole of the testis, effectively a ligament with some striated muscle cells, may be some muscular action that helps pull/draw down the testis OR a change/shortening of the gubernaculum itself

Question 7

What happens when there’s a failure of the Testis to descend?

Answer 7

A condition called ‘Cryptorchidism’

• Can be unilateral or bilateral
• Can be Incomplete (90%) or Maldescent

Maldescent: gets to anterior abdominal wall, perineum or thigh- ectopic. Goes in wrong direction! (whereas ‘incomplete’ is right direction but gets blocked)

• Affects 3% at full term, and 30% of premature babies
• Majority of these self-correct within 3 months
• Can correct surgically
• True incidence is much lower, 0.1-0.2%

Question 8

What are the consequences of Cryptochidism?

Answer 8

Failure to descend leads to infertility due to the body temperature too high for spermatogenesis!

Therefore it’s important to check for testes in scrotal sacs at birth!!

Question 9

How do the Testosterone levels change in the early stages of development

Answer 9

Start low, and then

1. Peak in the fetal period for “brain programming” to ‘maleness’
2. Drops right done so very low at birth
3. Peak at 2-3yr neonatal stage for “gonadal programming” for preprogramming of gonadal tissue
4. Drops once again until puberty
5. During Puberty hugely increase, and this remains relatively constant so there’s no male menopause!

Question 10

Changes of testes at puberty

Answer 10

• Marked increase in proliferation of spermatogonia
• Cords develop a lumen; become seminiferous tubules
• Beginning of Sperm production

Question 11

The Seminiferour tubules are divided into….

Describe the passage of sperm from within the testis

Answer 11

The Seminiferous Tubules (100m) are divided into fibrous compartments with fibrous divisions.

• The tubes are double ended and join into the Rete Testis network.
• Rete testis feeds out into another coiled structure that runs around the side of the testis, the Epididymus (6m).
• The Head (larger, more packed w tubule), body and tail of the epididymus leads into a section which is less folded, with a thicker muscular coat and this leads into the Vas Deferens (4m)

Question 12

Histology of the Seminiferous Tubules

Answer 12

1. Spermatogonia: found at the periphery of tubule, in a single layer of cells. Have a full set (2n) of chromosomes that divide and move towards the Lumen.
2. Primary Spermatocytes: quite Large
3. Spermatids: small rounded cells

​

• Thick walled for lots of activity
• Lots of Interstitual tissue/space around the tubules
• Lots of BV to get Testosterone to general circulation + germ cells
• Sertoli Cells: Often look like ‘►’ sitting on the BM, where in actual fact you are only seeing the nucleus and the cell body extends to the lumen. Nurse ‘nourishing’ cells.
• Leydig Cells: Pale cytoplasm, rounded cells in the interstitual space. Produce Androgens ‘testosterone’

Question 13

What’s interesting about the shape of the Sertoli Cells?

Answer 13

• Sits on the Basement Membrane and extends out to the lumen
• Groups of Sertoli cells with germ cells between them. Germ cells move up through this convuluted pathway during development, and are enveloped in the Sertoli cell membrane.

Have Junctional Complexes: tight junctions between cells, that seperate the spermatocyte (undergoing meiosis) from Spermatogonia (mitosis). This avoids messing up and crossing of mis-matched genetic information. Spermatogonia are allowed to pass through only!

Question 14

What are Myofibroblasts?

Answer 14

Little cells that sit on the outside of the Seminiferous tubule, can squeeze the tubule to move the fluid down the tubule lumen!

Question 15

What are the 3 main stages of Spermatogenesis?

Answer 15

1. Spermatocytogenesis: mitosis
2. Meiosis: reduced # chromosome, 2 divisions
   First division: halves number of chromosomes
   Second Division: double number of cells again to 4
3. Spermiogenesis

See pg 28 of module book!

Question 16

Look and describe pg 29 spermatogenesis diagram

Answer 16

The spermatatogonia divide,

• One half stays at the basement membrane, as a back up layer
• The other half just keeps dividing and moves through the Junctional Complex to become a 1º spermatocyte.
  
  • This is now a slow process of Meiosis; takes around 3 weeks (which is why you can usually see lots of them)
  • First division produces 2º spermatocyte, which are only around for a short time (chromosome number has reduced ‘haploid’)
• Once undergone 2^nd meiotic division, it is now a spermatid. Th.ese are little Round cells → elongated with dark nuclei

Question 17

Describe the 4 phases of Spermatid Development

Answer 17

1. Golgi Phase
2. Cap Phase
3. Acrosomal Phase
4. Maturation Phase

Question 18

The Golgi Phase of Spermatid Development

Answer 18

Golgi Phase: Rounded cells, opposite to a forming flagellum there is a Golgi; (where proteins get added to carbs produced in the ER) and vesicles of protein+carbs fuse and become large, membrane bound Proacrosomal Granules (which will form the acrosome)

Question 19

The Cap Phase of Spermatid Development

Answer 19

Cap Phase: granules keep fusing, and eventual form a cap of acrosomal cap, and the whole structure is called an acrosome that sits atop the nucelus like a beanie.

Question 20

Describe the acrosomal and Maturation phase of Spermatid Development

Answer 20

Acrosomal Phase: The acrosome comes down and covers the nucleus

Maturation Phase: spermatid become more elongated and oval

Question 21

importance of the Acrosome?

Answer 21

Contains enzymes which can dissolve the Zona Pellucida.

Without the acrosome fertilisation cannot occur!

(unless you bypass this with IV fertilisation)

Question 22

Describe Spermatid Release into the lumen!

Answer 22

• Tails alway hang into the lumen
• Heads of the sperm are embedded in sertoli cells
• Cytoplasm gets pulled off the sperm, helping the streamlining process,

Leftover cytoplasm forms a residual bulb that gets phagocytosed/internalised and recycled by Sertoli cells, forming nutrients for future spermatids/spermatogonia coming up from the basement membrane

Question 23

What ende product are you left with after Spermatogenesis?

Answer 23

A mature Spermatozoan.

One of the most specialised cells in the body.

Highly streamlined, lots of mitochondria in the midpiece.

fibrous sheath within the tail.

Question 24

How long does it take the spermatagonia to reach the lumen of the seminiferous tubules (as spermatozoa)

Answer 24

around 74 days from basal lamina to lumen

Question 25

Periodic Release of Spermatozoa into the lumen comes every ____ days in ___________.

Why does this occur?

Answer 25

Periodic Release of Spermatozoa into the lumen comes every 16 days in successive waves.

The interval at any point in the lumen is 16 days.

This is because sperm are all linked from the initial spermatogonia to the spermatozoa by cytoplasmic bridges, that are all marching together in unision to the lumen.

Sperm is produced 300-600/second

Question 26

Describe Sperm Production

Answer 26

At any one point in the seminiferous tubule, production is discontinuous (every 16 days)

BUT collectively production is continuous (100-150mill sperm/day)

300-600 sperm/second/gram of tissue

Question 27

Why is it that if you were ejaculating daily you sperm count will start to decrease?

Answer 27

Normal ejaculate 100-300 million sperm but this is highly variable, and is highly then your daily production of sperm (100-150mill sperm/day).

THerefore your sperm count will slowly decline.