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Hormones and Reproduction

Hormones and Reproduction. Hormones. Hypothalamus: analyses nervous signals from other areas of the brain also analyses hormonal signals generated in the ovaries and other endocrine glands and transmitted by the blood stream.

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Hormones and Reproduction

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  1. Hormones andReproduction

  2. Hormones • Hypothalamus: • analyses nervous signals from other areas of the brain • also analyses hormonal signals generated in the ovaries and other endocrine glands and transmitted by the blood stream. • produces Gonadotropin Releasing hormone (GnRH) which acts on the Pituitary gland

  3. The pituitary gland: • Receptors bind GnRh and releases • Luteinizing hormone (LH) • Follicle Stimulating Hormone (FSH) • Both hormones then act on • the OVARIES in females • the TESTIS in males

  4. The ovaries produce: estrogen ESTROGEN: • Steroid hormone • At puberty: development of breasts, uterus and vagina; broadening of pelvis; axillary and pubic hair; increase in adipose tissue • Participates in monthly preparation of body for pregnancy( menstrual cycle) • Participates in pregnancy

  5. Progesterone: • Steroid hormone: in target cells, progesterone binds to receptors forming a progesterone-receptor complex. This enters the nucleus and binds to progesterone response element (a specific sequence of DNA) and turn on genes. • secreted by the corpeus luteum and by the placenta • Prepares body for pregnancy and maintains pregnancy

  6. The Menstrual Cycle • About every 28 days, some blood and other products of the disintegration of the inner lining of the uterus (the endometrium) are discharged from the uterus, a process called menstruation. • During this time a new follicle begins to develop in one of the ovaries. After menstruation ceases, the follicle continues to develop, secreting an increasing amount of estrogen as it does so.

  7. The rising level of estrogen causes the endometrium to become thicker and more richly supplied with blood vessels. • A rising level of LH causes the developing egg within the follicle to complete the first meiotic division, forming a secondary oocyte. • After about two weeks, there is a sudden surge in the production of LH. • This surge in LH triggers ovulation: the release of the secondary oocyte into the fallopian tube. • Under the continued influence of LH, the now-empty follicle develops into a corpus luteum.

  8. Stimulated by LH, the corpus luteum secretes progesterone which • continues the preparation of the endometrium for a possible pregnancy • inhibits the contraction of the uterus • inhibits the development of a new follicle

  9. If fertilization does not occur: • the rising level of progesterone inhibits the release of GnRH which, in turn, • inhibits further production of progesterone. • As the progesterone level drops, • the corpus luteum begins to degenerate; • the endometrium begins to break down • the inhibition of uterine contraction is lifted, and • the bleeding and cramps of menstruation begin.

  10. PREGNANCY • Fertilization of the egg takes place within the fallopian tube. By the end of the week, the developing embryo has become a hollow ball of cells called a blastocyst. • The blastocyst reaches the uterus and embeds itself in the endometrium, a process called implantation. With implantation, pregnancy is established.

  11. The blastocyst has two parts: • the inner cell mass, which will become the baby, and • the trophoblast • develops into the extraembryonic membranes (the amnion, placenta, and umbilical cord) • begins to secrete human chorionic gonadotropin (HCG).

  12. HCG behaves like FSH and LH but it is NOT inhibited by a rising level of progesterone. • HCG prevents the deterioration of the corpus luteum at the end of the fourth week and enables pregnancy to continue • Because only the implanted trophoblast makes HCG, its early appearance in the urine of pregnant women provides the basis for the most widely used test for pregnancy (can provide a positive signal even before menstruation would have otherwise begun).

  13. The corpeus luteum continues to make progesterone until the end of the first trimester. • As pregnancy continues, the placenta becomes a major source of progesterone, and its presence is essential to maintain pregnancy. • Miscarriages often occur at this time and are thought to be related to the switch-over from the corpeus luteum and the placenta. • Mothers at risk of giving birth too soon can be given a synthetic progestin to help them retain the fetus until it is full-term.

  14. Birth • The placenta releases Corticotropin Releasing Hormone (CRH) which stimulates the pituitary of the fetus to secrete • ACTH, which acts on the adrenal glands of the fetus causing them to release the estrogen precursor dehydroepiandrosterone sulfate (DHEA-S). • This is converted into estrogen by the placenta.

  15. The rising level of estrogen causes the smooth muscle cells of the uterus to • synthesize connexins and formgap junctions. Gap junctions connect the cells electrically so that they contract together as labor begins. • express receptors for oxytocin • Oxytocin is secreted by the posterior lobe of the pituitary as well as by the uterus. • A number of protaglandins also appear in the mother's blood as well as in the amniotic fluid. • Both oxytocin and prostaglandins cause the uterus to contract and labor begins.

  16. Three or four days after the baby is born, the breasts begin to secrete milk. • Milk synthesis is stimulated by the pituitary hormone prolactin and its release from the breast is stimulated by oxytocin. • Milk contains an inhibitory peptide. If the breasts are not fully emptied, the peptide accumulates and inhibits milk production. This action thus matches supply with demand.

  17. The Pill • Synthetic estrogens and/or progestins are used to inhibit GnRH. The inhibition of GnRH prevents the mid-cycle surge of LH and ovulation. There is no egg to be fertilized. • The progestins also helps to prevent the sperm from reaching the egg and changes the lining of the uterus. • The main side-effects of the pill stem from an increased tendency for blood clots to form (estrogen enhances clotting of the blood).

  18. RU-486 • RU-486 is a progesterone antagonist. It blocks the action of progesterone by binding more tightly to the progesterone receptor than progesterone itself. • The RU-486/receptor complex is not active as a transcription factor. • Thus genes that are turned on by progesterone are turned off by RU-486. • The proteins needed to establish and maintain pregnancy are no longer synthesized. • The endometrium breaks down.

  19. The embryo detaches from it and can no longer make chorionic gonadotropin (HCG). • Consequently the corpus luteum ceases its production of progesterone. • The inhibition on uterine contraction is lifted. • Soon the embryo and the breakdown products of the endometrium are expelled. • These properties of RU-486 have caused it to be used to induce abortion of an unwanted fetus.

  20. EC pills • Emergency Contraception pills contain levonorgestrel. • Levonorgestrel is the only drug that Health Canada has approved for use as an emergency contraceptive. • Essentially, the drug can delay or inhibit ovulation, interfere with fertilization, or prevent implantation. The drug does not work if a woman is already pregnant. • If taken within 72 hours of intercourse, ECs reduce the chance of pregnancy by about 90-95%. • In Ontario, pharmacists can dispense without a doctor’s prescription.

  21. The Male Reproductive Hormones There are 6 major hormones: 1. GONADOTROPIN RELEASING HORMONE (GnRH): • released by the hypothalamus, tells the pituitary to release LH and FSH • ultimately controls sperm production and testosterone levels

  22. 2. FOLLICLE STIMULATING HORMONE (FSH): • released by the anterior pituitary, stimulates the production of sperm in the seminiferous tubules of the testes 3. LUTEINIZING HORMONE (LH): • released by the anterior pituitary, stimulates testosterone production by the interstitial cells of the testes

  23. 4. ANDOSTERONE: • less abundant and less effective than testosterone, made by interstitial cell in the testes 5. TESTOSTERONE: • made in the interstitial cells • stimulates secondary sex characteristics in males • helps stimulate spermatogenesis in the testes (with FSH) • associated with sex drive 6. INHIBIN: • released by sertoli cells when they are low on nutrients to feed developing sperm cells

  24. Next Steps

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