Reproductive Organs and Hormones Unit 2

What you should know The structure and function of reproductive organs and gametes and their role in fertilisation. Gamete production in the testes. The roles of seminiferous tubules, interstitial cells, testosterone, prostate gland and seminal vesicles. Gamete production in the ovaries to include maturation of ova and the development of a follicle. Site of fertilisation in the oviduct and zygote formation.

Reproductive Organs and Gametes Prior Knowledge Reproductive organs produce gametes Male gamete- sperm Female gamete- egg/ova Male reproductive organ- testes Female reproductive organ-ovary

Production of Gametes A germ line is the sex cells (eggs and sperm) that are used by sexually reproducing organisms to pass on genes from generation to generation. Gametes are produced by germline cells

MALE REPRODUCTIVE SYSTEM BLADDER URETER PUBIC BONE SEMINAL VESICLE PROSTATE GLAND RECTUM URETHRA ERECTILE TISSUE COWPER’S GLAND VAS DEFERENS PENIS EPIDIDYMIS SCROTUM TESTIS

TESTES SEMINIFEROUS TUBULE INTERSTITIAL CELLS

TESTES Seminiferous tubules – produce sperm Interstitial cells– secrete testosterone Interstitial cells

Accessory Glands Seminal vesicles and the prostate gland Semen consists of 10% sperm and 90% fluid and as sperm pass down the ducts from testis to penis, (accessory) glands add various secretion The prostate gland and seminal vesicles secrete fluids that maintain the mobility and viability of the sperm. This fluid is called semen Seminal vesicles secrete a fructose rich liquid, which provides energy for the mobility of the sperm The liquid also contains hormone like compounds (Prostaglandins) which stimulate contractions of the female reproductive tract Prostate gland secretes a thin lubricating liquid containing enzymes which regulate the viscosity of semen

FEMALE REPRODUCTIVE SYSTEM OVIDUCT ENDOMETRIUM OVARY UTERUS CERVIX VAGINA

THE OVARIES The ovaries contain immature ova in various stages of development Each ova is surrounded by a follicle that protects the developing ovum and secretes hormones Mature ova are released into the oviduct where they may be fertilised by sperm to form a zygote

GRAAFIAN FOLLICLE

Human Ovulation

You should know The structure and function of reproductive organs and gametes and their role in fertilisation. Gamete production in the testes. The roles of seminiferous tubules, interstitial cells, testosterone, prostate gland and seminal vesicles. Gamete production in the ovaries to include maturation of ova and the development of a follicle. Site of fertilisation in the oviduct and zygote formation.

Hormonal Control

What You Should Know Hormonal onset of puberty. Pituitary gland releases follicle stimulating hormone (FSH), luteinising hormone (LH) or interstitial cell stimulating hormone (ICSH) via the hypothalamus Hormonal control of sperm production. FSH promotes sperm production and ICSH stimulates the production of testosterone. Testosterone also stimulates sperm production and activates the prostate gland and seminal vesicles. Negative feedback control of testosterone by FSH and ICSH. Hormonal control of the menstrual cycle. Development of a follicle and the endometrium in the uterus. Roles of FSH, LH, oestrogen and progesterone in the menstrual cycle. Development of a follicle, the corpus luteum and the endometrium. Follicular and luteal phases. Blastocyst implantation. Negative feedback control through pituitary gland, FSH and progesterone, leading to menstruation.

Hormones Hormones are chemical messengers produced by cells that bind to receptors on the plasma membrane of other cells or enter other cells and alter the metabolic function of these cells. In response to a signal from the brain, hormones are secreted directly into the blood by the glands that produce and store them. These glands make up what is known as the endocrine system The testes and ovaries, or "gonads", are endocrine glands. In males, testes produce sperm and secrete the male sex hormone testosterone; in females, ovaries produce eggs and the female hormone oestrogen. It is these hormones that determine secondary sex characteristics like muscle mass and facial hair. They also help to orchestrate sperm production, menstruation and pregnancy.

Hormonal Onset of Puberty At puberty the hypothalamus secretes a releaser hormone that targets the pituitary gland Releaser hormones cause the release of other hormones to start and stop The pituitary gland is stimulated to release follicle stimulating hormone (FSH) Luteinising hormone (LH) in women Or interstitial cell stimulating hormone (ICSH) in men These hormones control the onset of puberty

Hormonal Control of Sperm Production

Male Hormones FSH (follicles stimulating hormones) promotes spermatogenesis in seminiferous tubules ICSH (Interstitial cell-stimulating hormone) stimulates interstitial cells to produce male hormones (eg testosterone) Testosterone also stimulates sperm production and activates the prostate gland and seminal vesicles FSH and ICSH exhibit negative feedback control on the pituitary gland decreasing the level of testosterone produced by the interstitial cells

NEGATIVE FEEDBACK CONTROL High levels of testosterone have an inhibitory effect on the pituitary gland Inhibits secretion of FSH and ICSH Thus, levels of testosterone fall Inhibitory effect on pituitary ceases FSH and ICSH secretion increases Levels of testosterone increase

SELF REGULATION OF TESTOSTERONE PITUITUARY GLAND Stimulates Inhibits Testosterone FSH ICSH SEMINIFEROUS TUBULES INTERSTITIAL CELLS

Hormonal Control of the Menstrual Cycle

MENSTRUAL CYCLE Takes on average 28 days Menstruation is day 1 to 5 of the cycle Endometrium starts to repair Ovulation day 14 Endometrium thick and spongy Menstruation in absence of fertilised egg Consists of 32 phases-Follicular phase & Luteal phase

Follicular Phase FSH Causes development of follicles in ovary Stimulates secretion of oestrogen by the follicle oestrogen stimulates proliferation of the endometrium preparing it for implantation and affects the consistency of cervical mucus making it easier for sperm to penetrate

Luteal Phase LH Peak levels of oestrogen stimulate a surge in the secretion of LH which triggers ovulation Causes Graafian follicle to rupture (ovulation) Causes development of the corpus luteum from the follicle Stimulates the corpus luteum to secrete progesterone

Progesterone promotes further development and vascularisation of the endometrium preparing it to receive a blastocyst if fertilisation occurs Ovum dies after 36 hours

Negative Feedback Effect of Ovarian Hormones on the Pituitary High levels of oestrogen and progesterone have an inhibitory effect on the pituitary gland Decrease the levels of FSH and LH which prevents further follicles from developing The lack of LH leads to degeneration of the corpus luteum A drop in progesterone leads to menstruation

Menstrual Cycle

FERTILISATION

FERTILISATION