PHYL 142 Exam 1: Endocrinology
endocrine
"endo-" inside; inner secretion into bloodstream
exocrine
"exo-": outside; outer secretion into epithelium
triglycerides
3 fatty acid + 1 glycerol molecule major for of fatty acid and energy stored primarily stored in adipose tissue
negative feedback controls hormone levels
Hormone A accumulates Hormone B increases Increased B slows production of A Production of A drops off Degradation and clearance takes over and lowers A Lack of A leads to drop in B lack of B eases up on inhabitation if A Hormone A can accumulate again
Nervous, endocrine, and anatomical relation to the hypothalamus
Hypothalamus contains both brain centers and endocrine tissue, and found inferior to the thalamus Hypothalamus is superior to the pituitary gland, and is connected to it by the slender, funnel-shaped structure called the infundibulum Acts as an endocrine organ, secretes regulatory hormones, contains autonomic center
HPT axis
TRH. TSH, T3, and T4 TRH - from the hypothalamus promotes the pituitary's secretion of TSH TSH - regulate both the synthesis and release of thyroid hormone T3 - Triiodothyronine contains 3 iodine atoms T4 - Thyroxine contains 4 iodine atoms
anterior lobe hormones produced
TSH, ACTH, FSH, luteinizing hormones, growth hormone, prolactin
hormone
a chemical messenger that is secreted by one cell and travels through the bloodstream to affect the activities of cells in other parts of the body
negative feedback definition
a creative mechanism that opposes or negates a variation from normal limits
positive feedback definition
a mechanism that increases a deviation from normal limits after an initial stimulus hormone leads to more release of the same molecule
pars intermedia
a narrow band bordering the posterior lobe
glucagon (catabolic) is released by
alpha cells stimulates breakdown of glycogen in skeletal muscle and liver cells stimulates breakdown of triglycerides in adipose tissue
amines
amines catecholamines tryptamine thyroid monoamines
posterior lobe hormones produced
antidiuretic hormone/vasopressin, oxytocin
random glucose test
blood glucose without fasting
lipolysis
catabolism of lipids as a source of energy lipids are broken down into pieces that can be converted into pyruvate or channeled into the citric and acid cycle
hormone that stimulates gluconeogenesis
cortisol effects: glucose metabolism and blood glucose fat metabolism suppresses immune function catabolic steroid
circadian rhythm
daily changes in physiological processes that follow a regular day-night pattern
hypoglycemia
deficiency of glucose in the bloodstream
monoamines
derived from single amino acids thyroid hormone is not a monoamine
ligand receptor interactions
determines if a cell can respond to a hormone determine how cells responds to a horomone
catecholamines
dopamine norepinephrine epinephrine
hyperglycemia
excess of glucose in bloodstream, often associated with diabetes mellitus
fasting for blood glucose testing
fasting - no eating/drinking for > 8 hours, water is okay
growth hormone
growth protein synthesis, lipid mobilization and catabolism
secondary endocrine organs
heart thymus adipose tissue digestive tract kidneys gonads
negative feedback occurs in these axis and affect what horomone
hormone 2 is responsible for negative feedback negative feedback from these target organ hormones controls the rate at which the hypothalamus secretes regulatory hormones
negative feedback
hormone A leads to production of B B inhibits Hormone A production much more common that positive feedback
endocrine system
hormones produced by endocrine cells reach almost every cell in the body effects of hormones on their target may be slow to appear, but they typically last for days
peptide
hydrophilic peptide bond link amino acids carboxyl and amino group chains of amino acids stored in vesicles for later secretion the largest group of hormones includes all hormones from pituitary
anterior lobe
hypophyseal portal system-network of vessels that carries blood from capillaries in the hypothalamus to capillaries in the anterior lobe of the pituitary gland
primary endocrine organs
hypothalamus pituitary gland thyroid gland adrenal gland pancreas pineal parathyroid
acute stress response: sympathetic vs endocrine control
hypothalamus contains autonomic centers that exert direct neural control over the endocrine cells of the adrenal medulla sympathetic division is activated, the adrenal medulla releases the hormones epinephrine
hypothalamic-pituitary-adrenal axis
hypothalamus>corticotropin release hormone>pituitary adrenocorticotropic hormone>adrenal glands
hypothalamic-pituitary-gonadal axis
hypothalamus>gonadotropin releasing hormone>pituitary>follicle-stimulating hormone and luteinizing hormone>gonads
HPT axis organs/tissues
hypothalamus>pituitary>thyroid
hypothalamic-pituitary-thyroid axis
hypothalamus>thyrotropin releasing hormone>pituitary>thyroid stimulating hormone>thyroid
hypoxia
insufficient oxygen in blood or tissue
Type 1 Diabetes
insulin dependent pancreatic beta cells don't produce enough insulin T effector cells start to attack beta cells
Type 2 Diabetes
insulin resistant insulin still produced negative feedback due to constant high insulin signaling is one possible cause of insulin resistance
oxytocin
labor contractions, milk ejection
pars distalis
largest and most anterior portion of the pituitary gland
pituitary gland location
lies nestled within the sella turica, a depression in the sphenoid bone
general class bind to intracellular receptors effects inside the cell differ from extracellular receptors
lipid-soluble hormones freely diffuse across the plasma membrane steroid receptors are located inside the cell hormone-receptor interactions regulate genes
hydrophobic hormones are transported into blood
lipids are hydrophobic 92% of your body is water colloid - solution of very large organic molecules blood is colloid
thyroid hormone
made from two tyrosine amino acids iodination
luteinizing hormone
male-secretion of testosterone female-ovulation, formaton of corpus luteum, secretion of progesterone
follicle-stimulating hormone
male-stimuation of sperm maturation female-secretion of estrogen, follicle development
adrenal cortex hormones produced
mineralocorticoids, primarily aldosterone glucocorticoids (cortisol, corticosterone, and cortisone)
ligand
molecule that minds to a protein
general class of hormones
monoamines, peptides, and lipid derivatives
pineal gland
nervous tissue in the posterior portion of the roof of the diencephalon
autonomic nervous system
neurons use action potentials and neurotransmitters to control specific cells or group of cells allows synaptic communication to provide crisis management in situations requiring split-second responses; commands are very specific and relatively short-live
posterior lobe hormone production
neurosecretion, neurons directly secrete hormones into bloodstream
posterior lobe
no portal system, inferior hypophyseal artery delivers blood to it, and the hypophyseal veins carry the blood and hormones away
hemoglobin A1c
normal A1c red blood cells contain hemoglobin glucose can attach to hemoglobin RBSc live about 3 months in the body
insulin (anabolic) is released by
pancreatic beta cells stimulates glucose to support growth and build carbohydrates and lipid reserves
general class of hormones that bind to extracellular receptor
peptide and monoamine hormones are typically hydrophilic peptide and monoamine receptors are typically on the plasma membrane's outer surface
erythropoietin
peptide hormone released by the kidneys response to low oxygen levels in kidney tissues\stimulates red bone marrow to produce RBCs, increase in the number of RBCs elevate blood volume
prolactin
production of milk
receptor
protein that binds to a ligand
antidiuretic hormone/vasopressin
reabsorption of water, elevation of blood volume and pressure
similarities between autonomic and endocrine
release of chemicals that bind to specific receptors on their target cells regulated mainly by negative feedback control mechanisms preserve homeostasis by coordinating and regulating the activities of other cells, tissues, organs, and systems
anterior lobe hormone production
releasing hormones, inhibiting hormones, or some combination of the two may control an endocrine cell in the anterior lobe
adrenal gland hormones produced
secrete epinephrine and NE in response to sympathetic activity
melatonin
secreted by the pineal gland important for circadian rhythm
adrencorticotropic hormone
secretion of glucocorticoids
tryptamine
serotonin melatonin
higher GI
sharp increase in blood glucose
lower GI
smaller increase in blood glucose
glucagon
stimulates production of glucose in liver
thyroid stimulating hormone
stimulates secretion of thyroid hormones affects almost every cell in the body important for metabolism and cell function
melanocyte stimulating hormone
stimulates the melanocytes of the skin, increasing their production of melanin, a brown, black, or yellow-brown pigment
adrenal gland anatomy
superficial to deep capsule>cortex>medulla
gluconeogenisis
synthesis of glucose from noncarbohydrate precursors creating new glucose
acute stress response: organ and tissues
the amygdala sends signals to the hypothalamus
endocrine communication (hormone transport)
transmission through the bloodstream chemical mediator is the hormones target cells are primary in other tissues and organs and must have appropriate receptors
trophic hormone
turn on endocrine glands or support the function of other organs
pars intermedia
virtually non function, and the circulating blood usually does not contain melanocyte-stimulating hormone
pars tuberalis
wraps around the adjacent portion of the infundibulum
adrenal gland cortex
zona glomerulosa - aldosterone production zone fasciculata-glucocorticoid/cortisol production zona reticularis-androgen production (once in bloodstreem, some of the androgens from the zona reticularis are converted to estrogens androgens>aromatase>estrogens
effects of blood sugar/glucose
↑ glucose use and ATP production ↑ glycogen formation ↑ amino acid absorption and protein synthesis ↑ triglyceride formation in adipose tissue
hypothyroidism
↓ ATP production ↓ heat Weight gain Bradycardia - slow heart rate Depression
normal fasting range
70-110 mg/dL
hyperthyroidism
Grave's Disease Goiter - enlarged thyroid Tachycardia - rapid heart beat Weight loss Thinning hair Proptosis - bulging eyes
