The Endocrine System
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The Endocrine System. Endocrine system . Includes all cells and endocrine tissues that produce hormones or paracrine factors. Endocrine vs Nervous System. Nervous system performs short term crisis management Endocrine system regulates long term ongoing metabolic
The Endocrine System
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Endocrine system • Includes all cells and endocrine tissues that produce hormones or paracrine factors
Endocrine vs Nervous System • Nervous system performs short term crisis management • Endocrine system regulates long term ongoing metabolic • Endocrine communication is carried out by endocrine cells releasing hormones • Alter metabolic activities of tissues and organs • Target cells • Paracrine communication involves chemical messengers between cells within one tissue
Control of Endocrine Activity • Endocrine reflexes are the counterparts of neural reflexes • Hypothalamus regulates the activity of the nervous and endocrine systems • Secreting regulatory hormones that control the anterior pituitary gland • Releasing hormones at the posterior pituitary gland • Exerts direct neural control over the endocrine cells of the adrenal medullae
Three Methods of Hypothalamic Control over the Endocrine System Figure 18.5
Hypothalamic Control of Adenohypophysis • Hypothalamus regulates secretion of hormones • Secretes releasing factors to release hormones • Secretes inhibiting hormones to turn off secretion of hormones
The Hypothalamus • The hypothalamus sends a chemical stimulus to the anterior pituitary to releasing hormones stimulate the synthesis and release of hormones • TRH - Thyrotropin releasing hormone (TRH) >> release of TSH • CRH - Corticotropin releasing hormone (CRH) >> release of ACTH • GnRH - Gonadotropin releasing hormone (GNRH) >> release of FSH and LH • GHRH – Growth hormone releasing hormone >> release of GH
Figure 25.3a–c The Pituitary Gland - Hypophysis • Attached to the hypothalamus by the infundibulum • Two basic divisions of the pituitary gland • Anterior pituitary or Adenohypophysis • Posterior pituitary or Neurohypophysis
The Pituitary Gland - Hypophysis • Releases nine important peptide hormones • All nine bind to membrane receptors and use cyclic AMP as a second messenger
Anterior Pituitary • Pars distalis - largest division of the adenohypophysis • Contains five different types of endocrine cells • Somatotropic cells -secrete growth hormone (GH) • Mammotropic cells - secrete prolactin (PRL) • Thyrotropic cells - secrete thyroid-stimulating hormone (TSH) • Corticotropic cells - secrete adrenocorticotropic hormone (ACTH) and melanocyte-stimulating hormone (MSH) • Gonadotropic cells - secrete follicle-stimulating hormone (FSH) and luteinizing hormone (LH) • Tropic hormones • TSH, ACTH, FSH, and LH • Regulate the secretion of hormones by other endocrine glands
Hormones of the Adenohypophysis • Thyrotropin releasing hormone promotes the release of TSH • Thyroid stimulating hormone (TSH) triggers the release of thyroid hormones • Corticotropin releasing hormone causes the secretion of ACTH • Adrenocorticotropic hormone (ACTH) stimulates the release of glucocorticoids by the adrenal gland
Hormones of the Adenohypophysis • Follicle stimulating hormone (FSH) - stimulates follicle development and estrogen secretion in females and sperm production in males • Luteinizing hormone (LH) causes ovulation and progestin production in females and androgen production in males • Gonadotropin releasing hormone (GNRH) promotes the secretion of FSH and LH
Hormones of the Adenohypophysis • Prolactin (PH) –stimulates the development of mammary glands and milk production • Growth hormone (GH or somatotropin) - stimulates cell growth and replication • Melanocyte stimulating hormone (MSH) -stimulates melanocytes to produce melanin
Posterior Pituitary • Structurally part of the brain • Contains axons of hypothalamic nerves • Manufactures antidiuretic hormone (ADH) • Decreases the amount of water lost at the kidneys • Elevates blood pressure • Manufactures oxytocin • Stimulates contractile cells in mammary glands • Stimulates smooth muscle cells in uterus Figure 25.5
Feedback Control of Endocrine Secretion Figure 18.8a
Negative Feedback Controls: Long & Short Loop Reflexes Figure 7-14: Negative feedback loops in the hypothalamicanterior pituitary pathway
Negative Feedback Controls: Long & Short Loop Reflexes Figure 7-15: Control pathway for cortisol secretion
Thyroid • Lies near the thyroid cartilage of the larynx
Thyroid Follicles and Thyroid Hormones • Thyroid gland contains numerous follicles • Release several hormones such as thyroxine (T4) and triiodothyronine (T3) that regulate metabolism • increases protein synthesis • promotes glycolysis, gluconeogenesis, glucose uptake • C cells produce calcitonin - helps regulate calcium concentration in body fluids
The Thyroid Follicles Figure 18.12b
Thyroid hormones • Held in storage • Bound to mitochondria, thereby increasing ATP production • Bound to receptors activating genes that control energy utilization • Exert a calorigenic effect • C cells produce calcitonin - helps regulate calcium concentration in body fluids
Four parathyroid glands • Embedded in the posterior surface of the thyroid gland • Chief cells produce parathyroid hormone (PTH) in response to lower than normal calcium concentrations • Parathyroid hormones are regulators of calcium levels in healthy adults
Homeostatic Regulation of Calcium Ion Concentrations Figure 18.15
Adrenal Cortex • Synthesizes and releases steroid hormones called corticosteroids • Different corticosteroids are produced in each of the three layers • Zona glomerulosa – mineralocorticoids (chiefly aldosterone) • Zona fasciculata – glucocorticoids (chiefly cortisol) • Zona reticularis – gonadocorticoids (chiefly androgens)
Adrenal Cortex • Secretes over 30 different steroid hormones (corticosteroids) • Mineralocorticoids • Aldosterone: maintains electrolyte balance • Glucocorticoids • Cortisol: • Stimulates gluconeogenesis • Mobilization of free fatty acids • Glucose sparing • Anti-inflammatory agent • Gonadocorticoids • testosterone, estrogen, progesterone
Mineralocorticoids • Regulate the electrolyte concentrations of extracellular fluids • Aldosterone – most important mineralocorticoid • Maintains Na+ balance by reducing excretion of sodium from the body • Stimulates reabsorption of Na+ by the kidneys • Aldosterone secretion is stimulated by: • Rising blood levels of K+ • Low blood Na+ • Decreasing blood volume or pressure
Glucocorticoids (Cortisol) • Help the body resist stress by: • Keeping blood sugar levels relatively constant • Maintaining blood volume and preventing water shift into tissue • Cortisol provokes: • Gluconeogenesis (formation of glucose from non-carbohydrates) • Rises in blood glucose, fatty acids, and amino acids
Gonadocorticoids (Sex Hormones) • Most gonadocorticoids secreted are androgens (male sex hormones), and the most important one is testosterone • Androgens contribute to: • The onset of puberty • The appearance of secondary sex characteristics • Sex drive in females • Androgens can be converted into estrogens after menopause
Pancreatic Islets • Clusters of endocrine cells within the pancreas called Islets of Langerhans or pancreatic islets • Alpha cells secrete glucagons • Beta cells secrete insulin • Delta cells secrete GH-IH
Insulin and glucagon • Insulin lowers blood glucose by increasing the rate of glucose uptake and utilization • Glucagon raises blood glucose by increasing the rates of glycogen breakdown and glucose manufacture by the liver
Regulation of Blood Glucose Concentrations Figure 18.19
