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MCB 135E Final Review

MCB 135E Final Review. Fall 2004 GSI: Jason Lowry. Exam Information. Monday, Dec. 20 th F-295 Haas 5-8 pm Multiple Choice (50pts) True / False (50 pts) Short Answer (100 pts) Comprehensive exam Majority will come from material since last midterm. Immune System Adolescence and Puberty

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MCB 135E Final Review

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  1. MCB 135EFinal Review Fall 2004 GSI: Jason Lowry

  2. Exam Information • Monday, Dec. 20th • F-295 Haas • 5-8 pm • Multiple Choice (50pts) • True / False (50 pts) • Short Answer (100 pts) • Comprehensive exam • Majority will come from material since last midterm

  3. Immune System Adolescence and Puberty Factors Affecting Sexual Behavior Muscle Growth and Plasticity Nutrition Eating Disorders Homeostasis Hormesis New Material

  4. Immune System • Function of System • Cell mediated vs. Humoral Immunity • Tissues and Organs Involved • Cells Involved • Viral vs. Bacterial Response

  5. Cell Types • Lymphocytes: derived in bone marrow from stem cells 10^12 • A) T cells: stored & mature in thymus-migrate throughout the body • -Killer Cells • Perform lysis (infected cells) • Cell mediated immune response -Helper Cells Enhance T killer or B cell activity -Supressor Cells Reduce/suppress immune activity May help prevent auto immune disease

  6. Lymphocytes (cont.) • B-Cells: stored and mature in spleen • secrete highly specific Ab to bind foreign substance (antigen: Ag), form Ab-Ag complex • responsible for humoral response • perform antigen processing and presentation • differentiate into plasma cells (large Ab secretion)

  7. Neutrophils- found throughout body, in blood -phagocytosis of Ab-Ag CX Macrophages- throughout body, blood, lymphatics -phagocytose non-specifically (non Ab coated Ag) -phagocytose specifically Ab-Ag CX -have large number of lysosomes (degradative enzyme) -perform Ag processing and presentation -present Ag to T helper cell -secrete lymphokines/ cytokines to stimulate T helper cells and immune activity 4. Natural Killer Cells-in blood throughout body -destroy cancer cells -stimulated by interferons

  8. Macrophage Bacteria Bacterial Infection

  9. Complement Series of enzymes which are sequentially activated and result in lysis of cell membrane of infected cell at bacterium Permeablizes membrane leaky Complement binding and activation ~35 enzymes and factors involved in cascade

  10. Viral Infection

  11. Immune System • Antibodies • Types • Characteristics • Specificity • In Newborns • Development of the Immune System

  12. Thymus Involution

  13. ORGAN AND T-CELL DEVELOPMENT • YOLK SAC • LIVER • (4 Weeks) • BONE MARROW • (4-5 Weeks ) • THYMUS • (7-10 Weeks) • BLOOD LYMPH • (14 Weeks) • SPLEEN • (16 Weeks) • T-cells migrate and appear in tissues with development and increase in number throughout Gestation

  14. B-CELLS • FIRST appear in immature state - Liver at 7 weeks • LATER –appear mature by 14-20 weeks • CAN DIFFERENTIATE INTO IMMUNOLOGICALLY COMPETENT ANTIBODY-PRODUCING PLASMA CELLS

  15. NATURAL KILLER CELLS • FIRST APPEAR IN FETAL BONE MARROW AROUND 13 WEEKS GESTATION • FIRST APPEAR IN FETAL BONE MARROW AROUND 13 WEEKS GESTATION • FOUND THROUGHOUT BODY • NK CELLS HAVE DIMINISHED ACTIVITY BEFORE BIRTH COMPARED TO ADULT • STIMULATED BY INTERFERON AFTER 27 WEEKS

  16. COMPLEMENT PROTEINS • ARISE FROM LIVER • FIRST DETECTED 5-6 WEEKS GESTATION • INCREASE GRADUALLY IN CONCENTRATION • AT ABOUT 28 WEEKS COMPLEMENT PROTEINS ARE AROUND 2/3 THAT OF ADULT CONCENTRATIONS • INDIVIDUAL VARIATION

  17. Adolescence and Puberty • Functional Changes During Adolescence • Male Reproductive System Maturation • Female Reproductive System Maturation

  18. 18-7: Age differences in heart rate 18-8: Growth in vital capacity with age 18-9: Basal Metabolism with age 18-10: Change in basal metabolic rate during childhood 18-11 Changes in blood pressure 18-12 Changes in diastolic blood pressure 18-13: Age changes in metabolic response to severe excercise Know these slides from reader

  19. Adolescence and Puberty • Adolescence • Period between onset of reproductive function and adulthood (maturation of functions) • Puberty • Maturation of reproductive function • One of many physiologic changes occurring during adolescence

  20. Puberty • Gonadal Function in Children Characterized by: • Very low levels of sex hormones • Very low levels of GnRH and FSH/LH • Testis and Ovary are differentiated • Indicates negative feedback is not functioning correctly

  21. CNS Development and Sexual Maturation • CNS Matures progressively from birth to late childhood by: • Dendritic branching and number of synapses • Glial Cell Number • These lead to better communication, better metabolism, more efficient neurotransmissions • Due to a decreased threshold, neurons are responsive to lower stimuli levels

  22. Experimental Evidence of Limbic System Immaturity • Immature gonads transplanted into an adult animal will mature immediately and demonstrate normal reproductive function • The pituitary taken from a prepubertal animal and transplanted into an adult will regulate normal reproductive function • Trauma to the hypothalamus will prevent the prepubertal animal from developing normal reproductive function

  23. Functional Changes • Adult Reproductive function is established during adolescence • Female – Cyclic • Male – Tonic • Puberty Age • Female – 8-13 • Male – 9-14

  24. Male Genital Penis increases length and width Scrotum becomes pigmented and rugose Seminal Vesicles enlarge Prostate enlarges and secretes Extragenital Voice - Deepens Hair - Increased Behavior – More aggressive, sexual interest Skin - Acne Body Conformation Females Genital Vagina and uterus increase in size and thickness Menarche Major and Minor Labia enlarge and become pigmented Extragenital Voice – Remains high Hair - Increased Behavior – Interest in opposite sex Skin – Some Acne Body Conformation Hips Broader, Fat Deposition in breast/buttocks Changes at Puberty

  25. Factors Influencing Onset • Hormonal • Nervous • Somatic • Menarche follows peak growth • Environmental • Social • Genetic

  26. H-P-G Axis

  27. Major Male Androgen Testosterone Develop and maintain male secondary sex characteristics Exert important protein, anabolic action, and growth promoting effects To exert inhibitory feedback on Pit LH secretion Female Ovarian Hormones Estrogen Stimulates growth and maintenance of secondary sex organs and characteristics Stimulates ovary and follicle growth Stimulates growth of smooth muscle and epithelial linings of reproductive tract Stimulates bone growth and epiphyses closure Protection against osteoporosis Progesterone Stimulation of uterine gland secretions Decrease contractility of uterine muscle Feedback on hypothalamus and pituitary Sex Hormones

  28. Days 1-5: E/P levels low Endometrial epithelium sloughs FSH and LH increase (due to loss of P inhibition) Follicles start to enlarge Days 6-7 Dominant follicle selected Days 7-12 Plasma E levels rise and endometrium proliferates Days 12-13 High E induces LH secretion (positive feedback from E) Oocyte undergoes first meiotic division and undergoes cytoplasm maturation Follicle is stimulated to secrete lytic enzymes and prostaglandins Day 14 Ovulation Female Menstrual Cycle

  29. Days 15-25 Corpus luteum forms and secretes E/P Secretory endometrium develops Secretion of FSH and LH is inhibited (negative FB) New follicles do not develop Days 25-28 Corpus Luteum degenerates Plasma levels of E/P decrease Endometrium Sloughs Return to Day 1 for a new cycle Menstrual Cont.

  30. Sexualization • Muscle Growth and Plasticity • Nutrition • Eating Disorders • Homeostasis • Hormesis

  31. Allows: Perpetuation of species Genetic adaptation Two sexes with a common goal Successful Pregnancy: Requires Mother’s Health Delivery of health child Safe environment to raise child Shared responsibility by mother, father, family, and society Choosing of a mate Physical Attraction Behavior Chemical Attractants Cultural Influences Sexual Orientation Theories about homosexuality Feminine Genes? Sensitivity to alteration of prenatal testosterone Sexualization

  32. Puberty Brain turns on adult cycles of gonad function Gonads begin production of adult levels of sex hormones Sex hormones stimulate adult body type Sex hormones stimulate reproductive behavior Status becomes a primary goal Desire for independence Skills for attracting sexual partner Peer pressure Sexualization

  33. Embryology • All muscles derive from the MESODERM of the GASTRULA Remember? Morula then Blastula then Gastrula • From its mesoderm layer: A) striated or voluntary muscles B) cardiac muscle or scalariform C) smooth muscle (of GI tract, Urinary, etc)

  34. Importance of the Nervous System • Autonomic nervous system controls smooth and cardiac muscles • Central nervous system controls the voluntary muscles

  35. Histology Each fiber being a multinucleated cell consists of myofibrils in bundles with a large number of mitochondria and a myoglobin (pigmented protein)

  36. Contractility Secondary to the sliding characteristic of the 2 main proteins of the myofibrils: MYOSIN ACTIN (thinner)

  37. TYPES of FIBERS Type 1: reddish Slow Oxidative (SO) Type 2: pale and divided into Fast Oxidative Glycolytic (FOG) Fast Glycolytic (FG)

  38. Myoplasticity: Concept Ability of the muscle to alter the quantity and the type of its proteins in response to stimulations Modalities of stimulations: 1) Physical activities leading to an increase in its cross-sectional area 2) Increase in the muscular mass with changes in the myosin type Muscle plasticity may involve: • Change in the amount of protein • Change in the type of protein • Combination of both

  39. Myoplasticity Due to Exercise • Endurance exercise increases the oxidative metabolism of the muscle • Resistance training increases the cross-sectional area due to true hypertrophy of the single cells • Inactivity induces rapid regression

  40. Muscle Fiber Number Virtually Fixed at Birth • The increase in mass (hypertrophy, sometimes as much as 50%) is due to increase in length and in the cross-sectional area of the muscle fibers. This is due to an increase in the number of myofibrils (from 75 to over 1000) • The capacity for regeneration and plasticity is a response to neural, hormonal and nutritional differences

  41. Caloric production • FATS : 1 gm = 9 kcal • PROTEINS : 1 gm = 4 kcal • CHO : 1 gm = 4 kcal

  42. The Macronutrients: Lipids • Saturated, no double bonds, usually solid • Trans-fats, from liquid to solid format (usually commercial only) • Mono-unsaturated, like olive oil • Poly-unsaturated, like most other oils • OMEGA 3, fatty acids, like many fish oils

  43. The Micronutrients • Salt, Na+ (<5 mg/day) and K+ (deficits, excesses, need) • Ca+ (1800 mg/day), P and Fl (bone metabolism) • Fe++ (deficit and excess), Cu, Mn, and Mg • Other metals: Cr, Se, Zn and the Metalloid I • Memo the hidden aspects of hypothyroidism

  44. Body Mass Index • Weight in kg divided by height in m2 • NORMAL BMI : 18 to 24 years of age BMI < 18 : suspect malnutrition BMI 24 to 30 : overweight BMI 30 to 40 : obesity BMI above 40 = morbid obesity

  45. Be familiar with: • Eating disorders • Causes, Symptoms, Treatments • Obesity • Types of obesity • Implication on health • The female athlete triad

  46. Increased blood pressure Increased heart rate Increased force of heart contraction Increased heart conduction velocity Shift of blood flow distribution Contraction of spleen capsule Increased depth and rate of respiration Mobilization of liver glycogen to glucose (glycogenolysis) Mobilization of free fatty acids from adipose tissue (lipolysis) Mydriasis (widening of pupil) Accommodation for far vision (relaxation of ciliary muscle) Widening of palpebral fissure (eyelids wide open) Piloerection Inhibition of gastrointestinal motility and secretion, contraction of sphincters Sweating (cold sweats as skin blood vessels are constricted). Stress Stress induces defense mechanisms for maintenance of homeostasis in response to environmental challenges Types of stress known to stimulate the HPA axis*: Physical Stress:hypoglycemia, trauma, exposure to extreme temperatures, infections, heavy exercise Psychological Stress: Acute anxiety, Anticipation of stressful situations, Novel situations, Chronic anxiety Exposure to stress generates: Specific responses: varying with the stimulus and generating different responses with each stimulus Non-Specific responses:always the same, regardless of the stimulus and mediated through stimulation of neural, endocrine & immune axes *HPA axis = hypothalamo-pituitary-adrenal axis

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