Biology of Reproduction Summers |
Endocrinology Homeostasis/Feedback Adult Female Steroid Production Ovulation |
Adult Male Gonadal Axis Regulation Sexual Differentiation Sexual Behavior Puberty |
Reproductive Cycling Estrous Cycles Menstrual Cycle Menopause Fertilization |
Fertilization Systems Gamete Interaction Pregnancy Labor and Parturition Lactation |
Sexual Response & Behavior Pheromones STDs text: Human Reproductive Biology4th Edition- RE Jones & KH Lopez,: pp 323 - 346 Acronyms/Abbreviations end |
XXVIII. Sexually Transmitted Diseases (STD's, venereal diseases (venus)) A. typically require moist membranes at the transitions (openings) between external and internal 1. mouth, oral cavity, eyes, anus, urethra, penis, vulva, vagina a. usually passed only by vaginal, oral, and anal coitus 2. bacterial, viral, retroviral, fungal a. immunity develops only slowly, if at all B. Bacteria 1. Chlamydia trachomatis a. the most common STD i. ~ 5 106/yr (U.S.) b. very small bacteria i. live inside cells (1) unlike other bacteria (2) once thought to be viral ii. gram-negative c. nonspecific urethritis i. cervix is the main site of infection in women (1) associated with cervical cancer (2) urethra (in men and women), vagina, vulva & cervix become irritated and red ii. spotting between menstruation, vaginal discharge, frequent (& painful in men) urination iii. other causes include Ureaplasma urealyticum (related to Chlamydia) and Hemophilus vaginalis d. many have no symptoms (30% of men, 50-70% of women) i. early detection difficult (1) may lead to sterility in females, abnormal & nonmotile sperm in men, lung and eye infections in newborn if passed during delivery ii. treated with tetracycline, erythromycin, not penicillin (1) both sexual partners should be treated (a) even without symptoms both are usually infected e. Lymphogranuloma venereum, tropical strain of C. trachomatis which can also be transmitted on clothing i. may lead to Reiter's syndrome 2. Neisseria gonorrhoeae (flow of seed) a. 2nd most common STD (~2 106/yr U.S.) b. gram negative, diplococcus (occurs in pairs) bacterium i. 16 strains c. females usually (75%) asymptomatic i. vaginal discharge, vaginitis, cervicitis, urethritis (with painful urination), and cystitis (1) may infect uterus, fallopian tubes (salpingitis), heart, brain, spinal cord, eyes skin and joints ii. males (70-90%) have urethral discharge, red glans, urethritis (with scar tissue and painful urination), pain in the groin and with erections, and low fever (1) may lead to infection of bladder (cystitis), prostate, epididymis and testes d. penicillin was an effective treatment i. some strains resistant (1) these strains produce penicillinase (2) spectinomycin and tetracycline can be used ii. without treatment ® infertility, spontaneous abortion & newborn blindness 3. Treponema pallidum a. named for the shepherd Syphilis in an Italian poem (by Hieronymous, 1520) b. spirochete bacterium i. survives only in ¯ O2 conditions ii. probably evolved from Treponema pertenue, nonvenereal syphilis of the axilla, mouth, nostrils, crotch and anus c. four stages i. 1o = chancre where bacteria entered body (1) heals in 1-5 wks ii. 2o = spreading rash; blemishes may burst and are very infectious (1) begins 2 wks to 6 mo; lasts 2-6 wks iii. Latent Stage = no symptoms (1) can last for years (2) after ~ 1 yr infected individual can no longer transmit (a) many (50%) never leave latent stage iv. 3o stage = bacteria have invaded entire body (1) large tumor like sores (gummas) of skin, muscle, digestive tract, liver, lungs, eyes, heart, endocrine and nervous systems (a) severe damage to heart and valves; neurosyphilis ® severe damage of brain and spinal cord ® paralysis, blindness & psychotic behavior (b) death (2) not infectious d. several antibiotics are effective as treatment i. benzthine penicillin G, tetracycline, erythromycin (1) treatment during 3o stage may not block tissue damage ii. untreated pregnant women can infect a 6 mo + fetus at any stage (1) placenta protects < 6 mo (2) infection ® 30% miscarriage, 70% congenital syphilis (a) contagious in 1st and 2nd year of life 4. other bacterial STDs: Hemophilus ducreyi = chancroid, Hemophilus vaginalis ® vaginitis, Calymmatobacterium granulomatis = granuloma inguinale C. Viruses 1. none are curable 2. Herpes simplex type 2 a. Herpes genetalis comes from 1 of 25 herpes viruses i. Herpes simplex 1 = cold sores, fever blisters; Herpes vericella-zoster = chicken pox, shingles; Epstein-Barr = mononucleosis; Herpes cytomegalovirus = cytomegalic inclusion (fetal Ý liver/spleen) (1) all (incl 2) can be passed by nonsexual contact, perhaps even inanimate contact b. tiny blisters ® painful sores ® itchy ulcers i. on penis or labia, clitoral hood, cervix, vaginal introitus, urethral meatus, or perineum ii. fever, enlargement of inguinal lymph nodes, and blindness (touching sores then eyes) possible, & positive correlation with cervical cancer iii. heal in 1-6 wks, but recurrence is common & frequent associated with stress or menstruation c. vitamin A, zinc sulfate, 5-iodo-deoxyuridine, 2-deoxy-D-glucose, & acyclivor may improve symptoms & ¯ recurrence 3. Human papilloma virus = genital warts = Condyloma acuminata (52 types) a. moist, soft, grainy warts appearing 3 wks - 8 mo after contact i. on cervix, labia, vulva, perineum, penis, scrotum b. associated with cervical and penile cancers i. 95% of cervical cancer patients have hPV c. treated with liquid N2, solid CO2, podophyllin, trichloracetic acid, laser surgery, or heat cauterization 4. Hepatitis B can be sexually transmitted D. Retroviruses 1. human immunodeficiency viruses type 1 and 2 a. lentivirus subfamily (lenti = slow) i. non-oncogenic retroviruses (1) persistent/chronically active infections (a) disease with long incubations periods ii. usually infect cells of the immune system (1) macrophages, T-cells iii. not cleared by the immune system (1) accumulated damage over years iv. can infect non-dividing cells (1) other retroviruses cannot v. large RNA genome (10 kb) for a retrovirus (1) large, heavily glycosylated envelope protein (2) Mg++ dependent reverse transcriptase (3) encode essential regulatory and accessory genes (a) \ regulation of their own expression in an infected cell vi. replication is toxic to the infected cell (1) cell dysfunction and death (2) may be the reason the immune system cannot eliminate infection vii. there are many types of lentivirus causing immunodeficiency (1) SIV, FIV, EIAV, HIV b. continuous replication of HIV-1 ® development of immunodeficiency i. rely on reverse transcriptase to convert into DNA 'provirus' (1) integrated into the cellular genome (2) 3 coding regions = gag, pol, env (a) gag = encodes capsid proteins (i) core viral particle containing RNA + enzymes (b) pol = viral enzymes necessary for replication (i) reverse transcriptase, integrase, protease (c) env = external glycoprotein (i) protrudes through lipid bilayer viral envelope (ii) envelope produced by cellular plasma membrane (iii) protruding glycoprotein is responsible for infectivity (iv) glycoprotein binds to cellular receptors c. treatment i. plasma HIV RNA indicates level of infection (1) treatment level based on [RNA + T-cell] ii. HIV RNA highly plastic (1) anti-retroviral drug resistant variants form quickly iii. combinations of anti-retroviral drugs must be used simultaneously (1) protease inhibitors (PI) (2) non-nucleoside reverse transcriptase inhibitors (NNRI) (3) nucleoside analog reverse transcriptase inhibitors (RT) (4) durable suppression with 2 x RT + 1x PICourse Syllabus