Chapter 11 Endocrine Glands
Are ______and secrete hormones into bloodstream
Hormones go to target cells with receptor proteins for it
Neurohormones are secreted into blood by specialized neurons
Hormones affect metabolism of targets
Chemical Classification of Hormones
______hormones are derived from tyrosine or tryptophan
Include NE, Epi, thyroxine, melatonin
Polypeptide/protein hormones are chains of amino acids
Include ADH, GH, insulin, oxytocin, glucagon, ACTH, PTH
Glycoproteins include LH, FSH, TSH
______are lipids derived from cholesterol
Include testosterone, estrogen, progesterone and cortisol
Steroid and thyroid hormones are lipids. Can ______into target cells
Prohormones and Prehormones
Prohormones are precursors of hormones. E.g. proinsulin
Prehormones are precursors of prohormones. E.g. preproinsulin
Some hormones are inactive until activated by target ______
E.g. thyroxine (T4) is inactive until converted to T3 in target cells
Common Aspects of Neural and Endocrine Regulation
Both NS and endocrine system use chemicals to communicate
Hormones are transported in blood and has more ______of effects in targets
Some chemicals are used as hormones and NTs
Targets for both must have specific receptor proteins. Must be rapidly inactivated
Hormone Interactions
A tissue usually responds to number of hormones
2 hormones are ______if work together to produce an effect
A hormone has permissiveeffect if it enhances responsiveness of a target organ to 2nd hormone. If action of 1 hormone inhibits effect of another, it is antagonistic
Hormone Levels and Tissue Responses
______is time required for blood level to be reduced by half
Ranges from mins to hrs for most (days for thyroid hormones)
Normal tissue responses are produced only within physiological range
High (pharmacological) doses can cause number of side effects
Probably by binding to ______of other hormones
Priming effect (upregulation) occurs when a hormone induces more of its own receptors in target cells. Results in greater response in target cell
Desensitization (downregulation) occurs after long exposure to high levels of polypeptide hormone. Subsequent exposure produces a lesser response
Most peptide hormones have ______which prevents downregulation
Mechanisms of Hormone Action
Target cell receptors show specificity, high affinity, and low capacity for hormone
Lipophilic hormones have receptors in target's cytoplasm and/or nucleus;
Called ______action and takes at least 30 mins
Receptors for water-solubles are on surface of target cell
These act through 2nd messengers; effects are ______
Some steroids act on cell surface receptors - nongenomic action
Hormones That Bind to Nuclear Receptor Proteins
Lipid hormones dissociate from carriers to pass thru plasma membrane of target
Receptors are called ______hormone receptors
Serve as transcription factors when bound to hormone ligands
Activate transcription
Have ligand (hormone)-binding and DNA-binding domains
Binds hormone and translocates to nucleus
Binds to ______element (HRE) on DNA,next to target gene
Mechanisms of Steroid Hormones
HRE consists of 2 half-sites
2 ligand-bound receptors have to bind to each HRE (______)
This stimulates transcription of target gene
Hormones That Use 2nd Messengers
Water soluble hormones use cell surface receptors, can’t pass through membrane
Actions are mediated by 2nd messengers
2nd messenger carries ______from receptor to inside of cell
Adenylate Cyclase-cAMP and Phospholipase-C-Ca2+
Mediate effects of many polypeptide and glycoprotein hormones
Epi can act via two 2nd Messengers cAMP and Ca2+
Tyrosine Kinase 2nd Messenger System
Is used by ______and many growth factors to cause cellular effects
Pituitary Gland
Is structurally and functionally divided into anterior and posterior lobes
Hangs below hypothalamus by infundibulum
Anterior produces own hormones. Controlled by ______
Post. pituitary stores and releases vasopressin and oxytocin made in hypothalamus
Anterior Pituitary
Secretes 6 trophic hormones that maintain size of targets
High blood levels cause target to hypertrophy. Low levels cause atrophy
Growth hormone (GH) promotes growth, protein synthesis, movement of ______into cells
Thyroid stimulating hormone (TSH) stimulates thyroid to produce T4 and T3
Adrenocorticotrophic hormone (ACTH) stimulates adrenal cortex to secrete cortisol, aldosterone
Follicle stimulating hormone (FSH) stimulates growth of ______follicles and sperm production
Luteinizinghormone (LH) causes ovulation and secretion of testosterone in testes
Prolactin (PRL) stimulates milk production by mammary glands
Release of A. Pit. hormones is controlled by hypothalamic ______and ______factors and by feedback from levels of target gland hormones
Higher Brain Function and Anterior Pituitary Secretion
Emotional states and psychological stress can affect circadian rhythms, menstrual cycle, and adrenal hormones
Adrenal Glands
Sit on top of kidneys. Each consists of outer cortex and inner medulla
Medulla synthesizes and secretes 80% Epi and 20% NE
Controlled by sympathetic
Cortex is controlled by ______and secretes:
Cortisol: inhibits glucose utilization and stimulate gluconeogenesis
Aldosterone which stimulate kidneys to reabsorb Na+ secrete K+
And some supplementary sex steroids
Adrenal Medulla
Hormonal effects of Epi/NE last 10X ______than sympathetic NS
Activated during "fight or flight" response. Causes effects like:
Increased respiratory rate. Increased HR and cardiac output
Stress and the Adrenal Glands
Stress induces a non-specific response called ______(GAS)
Causes ACTH and cortisol release
Chronic stress can induce high levels of cortisol that causes effects like:
atrophy of hippocampus (involved in memory)
reduced sensitivity of tissues to insulin (insulin resistance)
Thyroid Gland
Is located just below the larynx
Secretes T4 and T3 which set ______and are needed for growth and development
Consists of microscopic thyroid follicles
Outer layer is follicle cells that synthesize T4
Interior filled with ______, a protein-rich fluid
Production of Thyroid Hormones
Iodide (I-) is oxidized to iodine (I2) and attached to thyroglobulin
TSH hydrolysis T4 and T3s from thyroglobulin and then it’s secreted
Diseases of the Thyroid – Goiter
______T4 and T3 don’t provide negative feedback and TSH levels go up
Thyroid gland grows, resulting in a goiter
Hypothyroidism: People with inadequate T4 and T3 levels are hypothyroid
Have low BMR, weight gain, lethargy, cold intolerance
And ______= puffy face, hands, feet
Hyperthyroid: Goiters are also produced by Grave's disease (autoimmune)
Antibodies stimulate thyroid gland to over secrete. Characterized by
Exopthalmos, weight loss, heat intolerance, irritability, high BMR
Parathyroid Glands
Are ______glands embedded in lateral lobes of thyroid gland
Secrete Parathyroid hormone (PTH)
Most important hormone for control of blood Ca2+ levels
Release stimulated by ______blood Ca2+
Acts on bones, kidney, and intestines to increase blood Ca2+ levels
Islets of Langerhans
Are scattered clusters of endocrine cells in pancreas. Contain alpha and beta cells
Alphas secrete glucagon in response to low blood glucose
Stimulates glycogenolysis and lipolysis. ______blood glucose
Betas secrete insulin in response to high blood glucose
Promotes entry of glucose into cells
Converts glucose into glycogen and fat. Decreases blood glucose
Pineal Gland
Is located in basal forebrain near thalamus
Secretes ______in response to activity of suprachiasmatic nucleus (SCN) of hypothalamus
SCN is 10 timing center for circadian rhythms. Reset by daily light/dark changes
Melatonin is involved in aligning physiology with sleep/wake cycle and ______
Secreted at night and is inhibited by light
Thymus
Is located around trachea below thyroid
Produces ______of immune system and hormones that stimulate them
Sex and Reproductive Hormones
Gonads (testes and ovaries) secrete steroid hormones testosterone, estrogen, and progesterone
______secretes estrogen, progesterone, hCG, and somatomammotropin
Autocrine and Paracrine Regulation
Autocrine regulators are produced and act within same tissue of an organ
All autocrines control gene expression in target cells
______regulators are autocrines that are produced within one tissue and act on different tissue in same organ.
Autocrines and paracrines include:
Cytokines (lymphokines, interleukins)
Growth factors (promote growth and cell division)
Neutrophins (provides trophic support for normal and regenerating neurons)
Prostagladins
Have wide variety of functions
Different PGs may exert ______effects in tissues
Some promote smooth muscle contraction and some relaxation
Some promote clotting; some inhibit
Promotes inflammatory process of immune system
Plays role in ovulation
Inhibits gastric secretion in digestive system
Chapter 19: Regulation of Metabolism
Nutritional Requirements
Living tissue is maintained by constant expenditure of energy (ATP)
ATP derived from glucose, fatty acids, ketones, amino acids, and others
______of food is commonly measured in kilocalories (1 kcal = 1000 calories)
Carbohydrates and proteins yield 4kcal/gm; fats-9kcal/gm
Metabolic Rate and Caloric Requirements
Metabolic rate (MR) is total rate of body metabolism
= amount of ______consumed by body/min
Basal metabolic rate (BMR) is MR of awake relaxed person 12–14 hrs after eating and at a comfortable temperature
BMR depends on age, sex, body surface area, ______level, and thyroid hormone levels
Hyperthyroids have high BMR; hypothyroids have low BMR
Metabolism
Is all chemical reactions in body
Includes synthesis and energy storage reactions (______); and energy liberating reactions (______)
Anabolic Requirements
Anabolic reactions synthesize DNA and RNA, proteins, fats, and carbohydrates
Must occur constantly to replace molecules that are hydrolyzed in catabolic reactions
Turnover Rate
Is rate at which a molecule is broken down and ______
Average turnover for Carbs is 250 g/day
Some glucose is reused so net need ~150 g/day
Average turnover for protein is 150 g/day
Some is reused for protein synthesis so net need ~35 g/day
9 ______amino acids must be supplied in diet because can't be synthesized
Average turnover for fats is 100 g/day
Little is required in diet because can be synthesized from ______
2 essential fatty acids must be supplied in diet
Vitamins
Are small organic molecules that serve as coenzymes in metabolism or have highly specific functions
Must be obtained in diet because body does not produce them, or does so in insufficient amounts
Can be placed in 2 classes
______-solubles include A, D, E, and K
______-solubles include B1, B2, B3, B6, B12, pantothenic acid, biotin, folic acid, and vitamin C
Serve as coenzymes in metabolism
Minerals (Elements)
Are needed as ______for specific enzymes and other critical functions
Sodium, potassium, magnesium, calcium, phosphate, and chloride are needed daily in large amounts
Iron, zinc, manganese, fluorine, copper, molybdenum, chromium, and selenium are ______elements required in small amounts/day
Free Radicals
Are highly reactive and oxidize or reduce other atoms
Because they have an ______electron in their outer orbital
The major free radicals are reactive oxygen or reactive nitrogen species
NO radical, superoxide radical, and hydroxyl radical
Serve important physiological functions
Help to destroy bacteria
Can produce vasodilation
Can stimulate cell proliferation
In excess can exert ______contributing to disease states
Can damage lipids, proteins, and DNA
Promote apoptosis, aging, inflammatory disease, degenerative, and malignant growth
Body uses enzymatic and nonezymatic means to protect itself against oxidative stress
Enzymes like ______neutralize free radicals
Nonenzymes like vitamin C and E react with free radicals
Regulation of Energy Metabolism
Blood contains glucose, fatty acids, amino acids, and others that can be used for energy
______energy substrates
Control of Adipose Tissue Levels
Body appears to have negative feedback loops (an adipostat) to maintain a certain amount of adipose tissue
Adipose cells (adipocytes) store and release fat under ______control
And may release their own hormone(s) to influence metabolism
Development of Adipose Tissue
Number of adipocytes increases greatly after birth
Differentiation promoted by high levels of ______
Endocrine Functions of Adipocytes
Adipocytes secrete regulatory hormones called adipokines
Regulate hunger, metabolism, and insulin sensitivity
The adipocyte hormones TNFa, resistin, retinol BP4, and leptin are increased in ______and Type II diabetes
Leptin signals the hypothalamus on how much fat is stored, thereby regulating hunger and food intake
Low Adiposity: Starvation
Starvation and malnutrition diminish immune function
Low adipose levels cause low leptin levels
______cells have leptin receptors
Low leptin thus diminishes immune function
Leptin may play role in timing of puberty and in the amenorrhea of underweight women
Obesity
Childhood obesity involves increases in both size and number of adipocytes
Weight gain in adulthood is due mainly to ______in adipocyte size
Obesity is often diagnosed by using using a body mass index (BMI)
BMI = w/h2
w = weight in kilograms, h = height in meters
Healthy weight is BMI between 19 – 25
Obesity defined as BMI > 30
60% of pop in US is either ______(BMI>25) or obese (BMI>30)
Regulation of Hunger
Is at least partially controlled by hypothalamus
Involves a number of NTs: endorphins (promote overeating), Norepi (promotes overeating), serotonin (______overeating)
Calorie Expenditure of body
Has 3 components:
Number of calories used at the BMR make up 60% of total
Number used in response to temperature changes and during digestion/absorption (adaptive ______) make-up 10% of total
Starvation can lower MR 40%; eating raises MR 25-40% (thermic effect of food)
Number used during physical activity depends on type and intensity
Absorptive and Post absorptive States
Absorptive state is ______hr period after eating
Energy substrates from digestion are used and deposited in storage forms (anabolism)
Postabsorptive or fasting state follows absorptive state
Energy is ______from storage (catabolism)
Hormonal Regulation of Metabolism
Balance between anabolism and catabolism depends on levels of insulin, glucagon, GH, thyroxine, and others
Pancreatic Islets of Langerhans
Contain 2 cell types involved in energy homeostasis:
α cells secrete ______when glucose levels are low
Increases glucose by stimulating glycogenolysis in liver
β cells secrete insulin when glucose levels are high
Reduces blood glucose by promoting its uptake by tissues
Insulin and Glucagon Secretion
Normal ______glucose level is 65–105 mg/dl
Insulin and glucagon normally prevent levels from rising above 170mg/dl after meals or falling below 50mg/dl between meals
Insulin
Overall effect is to promote anabolism
Promotes storage of digestion products
______breakdown of fat and protein
Inhibits secretion of glucagon
Stimulates insertion of GLUT4 transporters in cell membrane of skeletal muscle, liver, and fat
Transports by ______diffusion
Oral Glucose Tolerance Test
Measures response to drinking a glucose solution
Assesses ability of β cells to secrete insulin and insulin's ability to ______blood glucose
In non-diabetics, glucose levels return to normal within 2 hrs
Glucagon
Maintains blood glucose concentration above 50mg/dl
Stimulates glycogenolysis in liver
Stimulates ______, lipolysis, and ketogenesis
Skeletal muscle, heart, liver, and kidneys use fatty acids for energy
Chapter 20: Reproduction Sexual Development and Disorders
Sexual Differentiation
Y chromosome induces formation of testes
Testosterone (T) from testes induces formation of male sex organs
In absence of T, female sex organs develop
Sexual Reproduction
Gametes (sperm or eggs) are formed in gonads by meiosis
Each has haploid number of chromosomes (23)
Fertilization results in diploidzygote with 46 chromosomes
Each zygote inherits 23 pairs of homologous chromosomes
22 of these are autosomal chromosomes
23rd pair are sex chromosomes: XX in females; XY in males
All ova contain an X chromosome; half the sperm, X and half contain Y
Chromosomal gender of zygote determined by the fertilizing sperm
Only 1 of 2 Xs in females becomes active
Other forms clump of inactive heterochromatin called a Barr body
Formation of Testes and Ovaries
Gonads have potential to become testes or ovaries until testis-determining factor (TDF) causes conversion to testes.
TDF is produced by SRY (sex-determining region of Y) gene
Seminiferous tubules (STs), contain germinal cells and nongerminal Sertoli cells
At ~day 65, Leydig cells (produce T) appear in clusters around STs
In absence of TDF, ovaries develop. Ovarian follicles don't appear until day 105
Development of Testes
Leydig cells secretions masculinizes embryonic structures
Testes descend into scrotum shortly before birth
Spermatogenesis doesn't occur in cryptorchidism (undescended testes)
Development of Accessory Sex Organs
Male accessory sex organs are derived from wolffian ducts
Include epididymis, vas deferens, seminal vesicles, and ejaculatory duct
Female acc.sex organs are from Müllerian ducts, includesuterusfallopian tubes
Development of External Genitalia
External genitalia are same during 1st 6 wks
Testis secretions masculinize these to form penis, male urethra, prostate, scrotum
In absence of T, clitoris forms instead of penis and labia instead of scrotum
Disorders of Embryonic Sexual Development
Hermaphroditism occurs when individuals have both ovary and testis tissue
Pseudohermaphrodites have either testes or ovaries but have accessory organs and external genitalia that are incompletely developed or inappropriate
Onset of Puberty
At beginning of female puberty, high E stimulates growth
High pubertal T in boys causes growth spurt that lags that of girls
Girls with low body fat and high activity levels enter puberty at older age
4 Phases of Human Sexual Response
Excitation phase (arousal) is characterized by increased muscle tone and engorgement of sexual organs with blood
Includes nipples, clitoris, penis, and labia minor. Vagina lubricates
During plateau phase clitoris is partially hidden by swelling labia
Areolae continue swelling. Outer third of vagina engorges
During orgasm, men ejaculate, and women have contractions of uterus and vagina
In the resolution phase, body returns to preexcitation conditions
Men enter refractory period
Male Reproductive System
Testes contain seminiferous tubules (STs) where spermatogenesis occurs; and interstitial tissue housingT-secreting Leydig cells
Sertoli cells of STs contain receptors for FSH. FSH stimulates spermatogenesis
Leydig cells contain LH receptors. LH stimulates secretion of T
Testosterone and Age
Secretion of T declines gradually and varyingly in men> 50. Causes are unknown
Not due to low GnRH, LH, or FSH because their levels are elevated
Spermatogenesis
Germ cells become spermatogonia (stem cells) and replicate thru life by mitosis.
Give rise to haploid sperm by meiosis. Spermatogenesis occurs in wall of STs
Spermatogonia and 1o spermatocytes are located in outer part of ST
Spermatids and mature spermatozoa are located toward lumen. Tails are in lumen
Spermiogenesis
Is maturation and separation of spermatids into mature spermatozoa
Requires participation of Sertoli cells
At end of 2nd meiotic division, 4 spermatids are still interconnected