Gametes and the HPG axis

Question 1

What are gametes?

What are they formed from?

What do they contain?

Answer 1

Gametes is a generic term referring to sperm or eggs:

• Specialised cells that allow us to pass our genes on to the next generation
• Haploid cells containing 23 individual chromosomes rather than 23 pairs
• Produced by sexually mature adults in the gonads
• Arise from diploid cells in the embryo

Question 2

Describe the proces of gametogenesis

Answer 2

Germ cells that produce gametes are separated in early embryonic life

Germ cells migrate to the developing gonads at about 6 weeks of embryonic life

After colonising the gonad, the germ cells:

• Proliferate by mitosis
• Reshuffle genetic material
• Reduce to haploid by meiosis
• Mature into a sperm/ova

Question 3

Describe the phases of mitosis

Answer 3

• Interphase (G₂)
  
  • ​Centrosomes containing centrioles​​
• Prophase
  
  • ​Centrosomes migrate to opposite poles of the cells, spindle poles and microtubules develop from the centrosomes.
  • Breakdown of nuclear membrane- chromosomes in the nucleus condense.
• Prometaphase
  
  • ​Chromosomes separate, joined to the centrosome by the kinetochore
• Metaphase
  
  • ​Chromosomes align along metaphase plate in the centre of the cell
• Anaphase
  
  • ​​​Sister chromatids separate so each daughter cell gets identical copy of genetic material
  • Cell elongates and narrows in the middle.
• Telophase
  
  • ​Cytokinesis- cell narrows in the middle to form cleavage furrow
  • 2 nuclei form, one in each daughter cell
• Interphase (G₁)
  
  • ​2 daughter cells are formed by the separation of the parent cell.

Question 4

Describe the process of meiosis I

Answer 4

In meoisis I genetic information is halved:

• Prophase I
  
  • ​Breakdown of the nucleus occurs
  • Spindles form from centrosomes as they migrate towards opposite poles of the cell
  • 3 chromosome pairs form to form tetrads in which chromatids from different pairs are joined by chiasmata
    
    • This allows genetic material to shuffle, allowing each individual gene to be inherited separately
• Metaphase I
  
  • ​Tetrads align in centre of the cell along the metaphase plate.
• Anaphase I
  
  • Pairs of homologous chromosomes split up, (sister chromatids remain attached) and migrate to opposite poles of the cell and the cell splits.

2 secondary spermatocytes are produced in this process

Question 5

Describe the process of meiosis II

Answer 5

Two haploid cells form in which chromosomes are still double (from meiosis I)

• Prophase II
  
  • Cell begins division similar to mitosis: spindle poles form and centrosomes migrate to opposite poles of the cell
• Metaphase II
  
  • Chromosomes align in the centre of the cell along the metaphase plate​
• Anaphase II
  
  • Sister chromatids separate and migrate to opposite poles of the dividing cell
• Telophase II
  
  • The 2 haploid cells formed in meiosis I divide forming 4 haploid cells, each containing different genetic material.

These 4 haploid cells are called spermatids.

Question 6

What is spermatogonia

Answer 6

XY germ cells in the male colonise the medulla of the testes in the embryo

They proliferate by mitosis forming spermatogonia

During puberty, the sex chords hollow out to form the seminiferous tubules

Spermatogonia cluster around the edges of the seminiferous tubules

Question 7

Describe the process of spermatogenesis

Answer 7

In puberty, a group of spermatogonia begin dividing by mitosis a fixed number of times to form clones of around 64 linked diploid cells called primary spermatocytes

Meiosis I produces two secondary spermatocytes from each primary spermatocyte.

Meiosis II produces 4 haploid spermatids (2 from each seconday spermatocyte). Spermatids are close to the lumen of the seminiferous tubule.

Spermatogonia are constantly replaced at the edges of the seminiferous tubules by mitosis

Question 8

What is spermiogenesis?

Describe this process

What are the major morphological changes?

Answer 8

The maturation of spermatids into fully differentiated spermatozoa

• Spermatids are released into the tubule and undergo remodelling/maturation as they pass down the rete testes, efferent duct and epididymis.

Major morphological changes are:

• Formation of a head containing the nucleus and a mid-piece containing the mitochondria
• Formation of the acrosome from the golgi apparatus
• Elongation of one centriole to form a tail
• Loss of excess cytoplasm

Question 9

What does the acrosome contain?

Answer 9

Digestive enzymes that break down the zona pellucida; the glycoprotein layer surrounding the ovum

Question 10

What are spermatogenic waves?

Answer 10

Spermatogenesis occurs in sequential waves along the length of the seminiferous tubules

The process takes around 70 days

New spermatogonia are recruited every 16 days

All stages of the process occur at the same time in different areas of the tubule

Question 11

What does semen contain?

Answer 11

• Secretions of the seminal vesicle (60%)
• Secretions of the prostate (20%)
• Sperm (via das deferens)
• Secretions of bulbo-urethral glands

The contents are mixed via emission from ejaculation

Question 12

What are oogonia?

Answer 12

In the female, XX germ cells colonise the cortex of the ovaries

They proliferate by mitosis, forming oogonia

Females develpo their entire stock of gametes before birth

Question 13

What 6 hormones are produced and released from the anterior pituitary gland?

What hypothalamic hormone stimulates their release?

What pituitaru cells are they produced by?

What are their targets?

Answer 13

Question 14

In the female, when does the process of meiosis begin and end? What does it produce?

When does it resume?

Answer 14

Begins before birth and ends before birth/shortly after- produces primary oocytes wrapped in a single layer of granulosa cells in a primordial follicle.

Resumes in puberty:

• Meiosis I produces 1 secondary oocyte and a first polar body
• Meiosis II produces a mature haploid ovum and a second polar body.

Question 15

What does fertilisation require?

Answer 15

Requires the transfer of a viable male and female gametes to the right place at the right time

Question 16

What does reproduction require?

Answer 16

Fertilisation

Supportive environment for concephus, embryo and foetus

Birth at the right time

Question 17

Describe the HPG axis

Answer 17

Hypothalamus produces and secretes gonadotrophin releasing hormone which acts on the anterior pituitary

Anterior pituitary secretes luteinising hormone and follicle stimulating hormone

LH and FSH act on the gonads to produce either testosterone and inhibin (male) or oesotrogen and progesterone (female)

Question 18

What is reproduction coordinated by?

Answer 18

HPG axis

Question 19

What are the main hormones of reproduction?

What are they produced by?

Answer 19

Hypothalamus: gonadotrophic releasing hormone

Anterior pituitary:

• Luteinising hormone
• Follicle stimulating hormone
• Prolactin

Posterior pituitary:

• Oxytocin

Gonads:

• Oestrogen
• Progesterone
• Testosterone
• Inhibin

Question 20

What is gonadotrophin releasing hormone produced by?

How is it released?

What does it cause?

Answer 20

Produced by the hypothalamus

Released every 1-2 hours in adults (short half life; <10mins)

Causes release of gonadotrophic hormones from the anterior pituitary

Question 21

What are the gonadotrophic hormones?

When do their levels rise? What causes this?

How do they act on the anterior pituitary?

Answer 21

• Follicle stimulating hormone
• Luteinising hormone

Produced and released by anterior pituitary

Levels low at birth but increase during puberty when pulsatile release of GnRH from the hypothalamus begins.

Question 22

Describe the male HPG axis

Answer 22

• Hypothalamus secretes GnRH which acts on the anterior pituitary
• Anterior pituitary releases LH and FSH
• LH stimulates Leydig cells lining the seminiferous tubule to secrete testosterone.
  
  • Testosterone then supports the maturation of sperm.
• FSH stimulates leydig cells to secrete testosterone and sertoli cells to produce inhibin.
  
  • Sertoli cells also support the maturation of sperm and convert testosterone to more active form.

Question 23

Where is testosterone produced?

What are its actions?

Answer 23

Produced in leydig cells

Migrates to seminiferous tubules

Is converted to dihydrotestosterone by sertoli cells

Binds to angrogen receptors in sertoli cells and stimulates sperm production and leads to secondary sex characteristics and libido.

Question 24

Describe the female hormonal system

Answer 24

Early in the cycle the follicle is growing and oestrogen is rising- there is a negative feedback on the hypothalamus and pituitary

Approaching mid-cycle, there is a dominant follicle with very high oestrogen and a positive feedback loop.

This leads to a surge in luteinising hormone, disruption of the follicle and then ovulation (release of mature ovum)

Late in the cycle, progesterone is high and exhibits negative feedback.

Question 25

What occurs post-ovulation?

Answer 25

The disrupted follicle forms a corpus luteum

LH stimulates the corpus luteum to produce oestrogen and progesterone

Oestrogen and progesterone increase as the corpus luteum expands.

Negative feedback on the hypothalamus and pituitary

COrpus lutem lasts around 14 days

Oestrogen and progesterone reduce.

Question 26

Describe the phases of the gonadotrophic hormone levels, uterine cycle, ovarian cycle and ovarian hormone levels

Answer 26

Gonadotrophic hormone levels:

• Follicular phase (preovulation) FSH and LH levels low until they increase (LH surge) just before ovulation.
• Luteal phase post ovulation, LH and FSH levels decrease.

Ovarian hormone levels:

• Pre-ovulation: oestrogen high and continues to rise before ovulation, progesterone low
• Post-ovulation:
  
  • Oestrogen reduces then rises again as corpus luteum expands.
  • Progesterone rises post ovulation then falls towards the end of the luteal phase

Uterine cycle:

• Menses phase (pre-ovulation), shedding of uterine lining.
• Proliferative phase: (begins pre-ovulation) driven by oesotrogen - proliferation of uterine lining in preparation for implantation
• Secretory phase: uterus secretes glycogen into the lining in preparation for implantation, driven by progesterone produced by corpus luteum.

Question 27

What are the roles of oestrogen?

Answer 27

• Increases muscular contraction in the uterine tubes and uterus to facilitate sperm passage.
• Causes proliferation of the uterine passage to prepare for implantation
• Makes cervical mucus thin and alkaline to allow sperm entry
• Supports breast development at puberty and in pregnancy
• Affects female body fat distribution, hair, genitals and supports bone growth.