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Chapter 18. The Endocrine System. communication between cells. mechanisms. direct cell-to-cell cell-to-cell (short distance) cell-cell cell-to-cell (long distance). gap junctions paracrine local chemicals neurotransmitters endocrine chemicals via bloodstream. Table 18-1.
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Chapter 18 The Endocrine System
communication between cells mechanisms direct cell-to-cell cell-to-cell (short distance) cell-cell cell-to-cell (long distance) gap junctions paracrine local chemicals neurotransmitters endocrine chemicals via bloodstream
Endocrine system cells (tissues, organs) that produce chemical messengers (hormones) that travel via the bloodstream to have distant effects
Endocrine system classes of hormones: peptide: lipid: • amino acid derivatives • polypeptides • eicosaniods • (from arachidonic acid) • steroids • (from cholesterol)
Endocrine system receptors and mechanism of action peptide hormones receptors on cell surface activate G proteins use second messengers (cAMP) activates enzymes alter cellular activity
Endocrine system receptors and mechanism of action steroid hormones diffuse across membrane receptors in cytoplasm activate specific genes alter cellular activity
100 keys (pg. 599) “Hormones coordinate cell, tissue, and organ activities on a sustained basis. They circulate in the extracellular fluid and bind to specific receptors on or in target cells. They then modify cellular activities by altering membrane permeability, activating or inactivating key enzymes, or changing genetic activity.”
Endocrine reflexes triggered by: • humoral stimuli • body fluid changes • hormonal stimuli • neural stimuli
Endocrine reflexes many are controlled by negative feedback simple - a single hormone complex - two or more several steps many are controlled by the hypothalamus
the “master gland” of the endocrine system: pituitary gland posterior anterior fig 18-6
pituitary gland produces 9 “peptide” hormones anterior *posterior ocytocin ADH TSH ACTH FSH LH prolactin GH MSH
pituitary gland controlled by hypothalamus produces RH releasing hormones IH inhibiting hormones
pituitary gland controlled by hypothalamus produces RH IH fig 18-7
pituitary gland anterior TSH ACTH FSH LH prolactin GH MSH thyroid gland adrenal gland gamete development reproduction milk production growth pigment cells
pituitary gland an example 1 2 TSH thyroid gland 3 5 4
pituitary gland OT ADH controlled by hypothalamus produces RH IH ADH OT fig 18-7
pituitary gland the “master gland” fig 18-9
100 keys (pg. 604) “The hypothalamus produces regulatory factors that adjust the activities of the anterior lobe of the pituitary gland, which produces 7 hormones. Most of the hormones control other endocrine organs, including the thyroid gland, adrenal gland, and gonads. The anterior lobe also produces growth hormone, which stimulates cell growth and protein synthesis.”
100 keys (pg. 604) “The posterior lobe of the pituitary gland releases two hormones produced in the hypothalamus; ADH restricts water loss and promotes thirst, and oxytocin stimulates smooth muscle contractions in the mammary lands and uterus (in females) and the prostate gland (in males).”
other endocrine organs • thyroid glands • C-cells of thyroid gland • parathyroid glands • adrenal glands • cortex • medulla • pineal gland • pancreas • intestines, gonads, kidneys, adipose
other endocrine organs thyroid glands produce thyroxine (T3, T4) affect all cells O2 use ATP production HR, bp erythropoiesis
other endocrine organs • thyroid glands • C-cells of thyroid gland • parathyroid glands calcitonin blood [Ca2+ ] • PTH • blood [Ca2+ ]
100 keys (pg. 612) “The thyroid gland produces (1) hormones that adjust tissue metabolic rates and (2) a hormone that usually plays a minor role in calcium ion homeostasis by opposing the action of parathyroid hormone.”
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other endocrine organs • adrenal glands • cortex • medulla mineralocorticoids aldosterone retain Na+ lose K+ glucocorticoids hydrocortisone anti-inflammatory NE, E (Sympathetic ANS)
100 keys (pg. 616) “The adrenal glands produce hormones that adjust metabolic activities at specific sites, affecting either the pattern of nutrient utilization, mineral ion balance, or the rate of energy consumption by active tissues.”
other endocrine organs pineal gland produce melatonin timing of sexual maturation protect from free radicals set circadian rhythms
other endocrine organs pancreas produces digestive enzymes contains islets produce (4) hormones insulin glucagon
pancreas insulin released when blood [glucose] is greater than ~110 mg/dl most cells in the body have insulin receptor insulin dependent
pancreas insulin most cells in the body have insulin receptor insulin dependent insulin causes these cells to 5 glucose absorption 5 glucose utilization 4 blood [glucose] 6
pancreas glucagon released when blood [glucose] is less than ~70 mg/dl stimulates: breakdown of glycogen breakdown of triglycerides production of glucose 4 blood [glucose] 5
100 keys (pg. 620) “The pancreatic islets release insulin and glucagon. Insulin is released when blood glucose levels rise, and it stimulates glucose transport into, and utilization by, peripheral tissues. Glucagon is released when blood glucose levels decline, and it stimulates glycogen breakdown, glucose synthesis and fatty acid release.”
the “other” diabetes diabetes insipidus diabetes mellitus flow-through sweet What would make the urine sweet? Why would glucose be in the urine?
diabetes mellitus causes • genetic • pathological conditions • injury • immune disorder • hormonal abnormality mutations leading to low insulin production abnormal insulin defective receptors
diabetes mellitus types • type 1 • insulin dependent (juvenile onset) • controlled by insulin injections • type 2 • insulin independent (adult onset) • controlled by diet/lifestyle
diabetes mellitus abnormally high blood [glucose] (hyperglycemia) so much glucose in the glomerular filtrate, that PCT can’t reabsorb it all… (transport proteins are saturated) … so some ends up in the urine glycosuria polyuria
diabetes mellitus health problems much of the body thinks it is “starving” diabetic retinopathy diabetic neuropathy 5 risk of MI (3x-5x) other vascular problems
other endocrine organs intestines gonads kidneys adipose, thymus, heart digestive hormones reproductive hormones EPO, renin