The Endocrine System
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Transcript of The Endocrine System
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The Endocrine System
Chapter 13
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Endocrine
• to interstitial fluid circulation• exocrine- secreted to ducts lumen or outside the
body• Endocrine glands:
– Pituitary, thyroid, parathyroid, adrenal & pineal
• Hormone secretion + other functions:– Hypothalamus, thymus, pancreas, ovaries,
testes, kidneys, stomach, liver, small intestine, skin, heart, adipose tissue & placenta
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Figure 13.1
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Hormone Operation• General chemical signal in circulation• Slower than nerve responses• Target cells must have a specific receptor
– Response determined by responding cell, i.e. different cells may respond differently to the same hormone
• Cell may respond to more than one hormone, – i.e. has more than one type receptor
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Hormone Chemistry• Soluble in lipids = Hydrophobic
– steroids, e.g. testosterone, estrogens, etc.– thyroid hormones, e.g. T3, T4 – Nitric oxide (NO)
• Water soluble= Hydrophillic– Amino acid derivatives, e.g. epinephrine,
norepinephrine– Peptides, e.g. antidiuretic Hormone (ADH), oxytocin– Proteins, e.g. insulin & growth hormone
• General Action depends on chemistry
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Lipid Soluble Action
• Hormone detaches from carrier in blood stream• Diffusion through interstitial fluid & cell
membrane into cell• Binds to & activates receptor• Receptor-hormone complex alters gene expression• If new mRNA protein synthesis• New proteins alter cell activity
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Figure 13.2
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Water-Soluble Action
• Diffuses from blood and binds to receptor in plasma membrane
• Starts reaction inside cell forming second messenger – Cyclic AMP is a common one
• Second messenger causes activation of several proteins (enzymes)
• Activated proteins produce physiological responses• Second messenger is inactivated
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Figure 13.3
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Control of Secretions
• Release occurs in short bursts• Regulated by:
– Signals from nervous system, e.g. adrenal medulla release of epinephrine
– Chemical changes in blood, e.g Blood Ca2+ affects parathyroid hormone
– Other hormones, e.g. ACTH from pituitary stimulates cortisol release from adrenal cortex
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Hypothalamus & Pituitary
• Major link between nervous & endocrine systems
• Hypothalamic Cells synthesize at least 9 hormones
• Pituitary synthesizes 7• Regulate growth, development, metabolism
& homeostasis
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Pituitary
• Two lobes; anterior & posterior• Hypophyseal portal veins
– Connect capillaries in hypothalamus to capillaries in anterior pituitary
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Hypothalamus Pituitary
• Axons of hypothalamic neurons (neurosecretory cells) end near capillaries of hypothalamus
• Secrete Releasing hormones or Inhibiting hormones portal veins
Regulate release of anterior pituitary hormones
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Figure 13.4
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Human Growth Hormone (hGH)
• Promotes synthesis of IGFs = somatomedins– in liver, muscle, cartilage & bone
• Released in bursts (~2 hour intervals)• Hypothalamus Growth Hormone Releasing
Hormone (GHRH) & Growth Hormone Inhibiting Hormone (GHIH )– Regulated by blood glucose levels
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Thyroid Stimulating Hormone
• Stimulates the formation & secretion of Thyroid hormones from thyroid gland
• Hypothalamus Thyrotropin Releasing Hormone (TRH)- no TIH– Regulated by circulating thyroid hormone
levels
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Follicle Stimulating Hormone (FSH) & Luteinizing Hormone (LH)
• In females:– FSH starts follicle development– LH stimulates formation of corpus luteum & secretion of
progesterone• In males:
– FSH stimulates sperm production in testes– LH stimulates release of testosterone
• Gonadotrophin releasing Hormone (GnRH) from hypothalamus is suppressed by high levels of estrogen in females and testosterone in males
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Prolactin (PRL)
• Initiates & maintains milk production by mammary glands
• Ejection of milk depends on oxytocin• Prolactin inhibiting hormone (PIH) suppresses
prolactin release• High levels of Estrogens PRH prolactin
release• Unknown function in males
– Hypersecretion impotence
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Adrenocortcotrophic Hormone (ACTH)
• Controls production & secretion of glucocorticoids from adrenal cortex
• Corticotrophin Releasing Hormone (CRH) from hypothalamus stimulates secretion of ACTH
• Stress related stimuli can also stimulate ACTH release
• Glucocorticoids inhibit CRH & ACTH release
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Melanocyte Stimulating Hormone (MSH)
• Small circulating amounts• Excess causes skin darkening
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Posterior Pituitary
• axon terminals from hypothalamus-• Release hormones • Oxytocin- enhance smooth muscle contraction
during birth & milk ejection– may play role in emotional bonding
• Antidiuretic Hormone (ADH) = vasopressin– Causes kidney to retain more water– Vasoconstriction increase in blood pressure– high blood osmotic pressure increase secretion
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Figure 13.5
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Figure 13.6
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Thyroid Gland
• Below larynx- two lobes– follicular cells surround follicles thyroxin (T4) & triiodothyronine (T3)– Stored in follicle
• Parafollicular cells (C-cells) calcitonin
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Figure 13.7a
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Figure 13.7b
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Thyroid Hormones
• T4 & T3 increase basal metabolic rate, protein synthesis & growth
• Blood level is controlled via feedback through hypothalamus– Increased body ATP demand can also raise blood levels
• Calcitonin inhibits osteoclasts decrease in blood Ca2+
– Feedback control on blood levels
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Figure 13.8
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Parathyroid Glands
• Small round masses in posterior of thyroid gland
• Chief cells release parathyroid hormone (PTH)• Regulator of Ca2+, Mg2+ & HPO4
2- – Increases number & activity of osteoblasts– Slows loss of Ca2+ & Mg2+ in urine– Promotes production of calcitriol increases rate
of Ca2+, Mg2+ & HPO42- absorption in GI tract
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Figure 13.9
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Figure 13.10
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• Fattened organ in curve of duodenum• Mostly an exocrine organ for digestion• Endocrine cells in pancreatic islets• Several cell types:• alpha cells glucagon• beta cells insulin
Pancreas
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Figure 13.11a
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Figure 13.11b
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Figure 13.11c
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Actions of Insulin & Glucagon• Low blood glucose stimulates glucagon release• Glucagon stimulates liver glucose release increased blood
glucose• High glucose levels stimulate insulin release• Insulin increase glucose transport into skeletal muscle and
adipose cells decreased blood glucose• Insulin promotes Amino Acid uptake, protein synthesis & lipid
storage• ANS also modulates hormone release
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Figure 13.12
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Adrenal Gland
• Near kidneys• Two separate gland structures- • Adrenal cortex and adrenal medulla• 3 zones in Cortex-3 steroid hormones
– Outer zone mineralocorticoids– Middle zone glucocorticoids– Inner Zone androgens
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Figure 13.13a
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Figure 13.13b
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Mineralocorticoids• Aldosterone is the major form• Stimulates Na+ reabsorption from urine to blood• Stimulates excretion of K + into urine• Part of renin-angiotensin-aldosterone pathway
– Decreased BP release of renin from kidney– Renin causes angiotensinogen angiotensin I– In lungs Angiotensin converting enzyme (ACE) causes
Angiotensin I angiotensin II– Angiotensin II causes Aldosterone release
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Figure 13.14
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Glucocorticoid action
• Increase rate of protein breakdown• Stimulate liver formation of glucose• Breakdown of triglycerides in adipose• Anti-inflammatory effects-
– Inhibit white blood cells • Depresses immune system• Regulated by negative feedback through
hypothalamus
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Androgens
• Small amount secreted from adrenal cortex• Contribute to libido in females• Converted to estrogens by other body
tissues• Stimulate axillary hair growth in both boys
& girls• Contribute to adolescent growth spurt
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Adrenal Medulla
• Consists of sympathetic post ganglionic cells• stimulated by preganglionic sympathetic
neurons• Releases Epinephrine and norepinephrine• gives systemic sympathetic effects• occurs during strong physiological stress
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Gonads
• Produce gametes• Release sex steroids (testosterone or estrogen &
progesterone) • Also hormone inhibin
– Inhibits FSH release• hormones from pituitary (FSH & LH)• Ovaries also produce a hormone relaxin during
pregnancy• details later in course
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Pineal
• Small gland attached to roof of third ventricle of brain
• Produces melatonin• Sets bodies biological clock
– More released in darkness
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Other hormones
• Prostaglandins (PG) & leukotrienes (LT)• Derived from fatty acids• Act locally in most tissues & released from most
body cells• LTs stimulate white blood cells & mediate
inflammation• PGs affect many visceral functions & also
modulate inflammation, promote fever & intensify pain
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Stress Responses
• Part of homeostatic responses• When successful leads to extra
physiological capacity and long term adaptation
• Initial “fight-or-flight” response– Nerve mediated response-sympathetic
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Stress- Resistance Reaction
Slower & longer Than initial response– Hypothalamus Increased CRH, GHRH, TRH
• CRHACTHCortisol mobilize metabolites (amino acids, glucose & fat)
• GHRHhGH mobilize fats & glucose for energy and promote tissue growth & repair
• TRHTSHthyroid hormones increased Metabolic capacity
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Aging
• Some decrease in function with aging• Loss of negative feedback sensitivity, e.g. decline
in circulating thyroid hormones• PTH levels rise loss of bone mass• Less glucocorticoid production• Slower release of insulin• Thymus declines after puberty• Ovary response to gonadotrophins stops• Slow decline in testosterone production
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