1 / 42

Endocrine Physiology

Endocrine Physiology. Endocrine system maintains homeostasis. The concept that hormones acting on distant target cells to maintain the stability of the internal milieu (Environment) was a major advance in physiological understanding.

danne
Download Presentation

Endocrine Physiology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Endocrine Physiology

  2. Endocrine system maintains homeostasis • The concept that hormones acting on distant target cells to maintain the stability of the internal milieu (Environment) was a major advance in physiological understanding. • The secretion of the hormone was evoked (Recalled) by a change in the environment and the resulting action on the target cell restored the milieu to normal. • The desired return to the normal status results in the maintenance of homeostasis.

  3. Endocrine “glands” synthesize and store hormones. • These glands have a sensing and signaling system which regulate the duration and magnitude of hormone release via feedback from the target cell. Sensing and signaling

  4. Endocrine vs. Nervous System • Both of them are the major communication systems in the body. • They integrate stimuli and responses to changes in external and internal environment. • Both are crucial to coordinated functions of highly differentiated cells, tissues and organs. • Unlike the nervous system, the endocrine system is anatomically discontinuous.

  5. The nervous system exerts point-to-point control through nerves, similar to sending messages by conventional telephone. • Nervous control is electrical in nature and fast. Nervous system

  6. Hormones travel via the bloodstream to target cells • The endocrine system broadcasts its hormonal messages to essentially all cells by secretion into blood and extracellular fluid. • Like a radio broadcast, it requires a receiver to get the message, in the case of endocrine messages, cells must bear a receptor for the hormone being broadcast in order to respond.

  7. A cell is a target because it has a specific receptor for the hormone • Most hormones circulate in blood, coming into contact with essentially all cells. • However, a given hormone usually affects only a limited number of cells, which are called target cells. A target cell responds to a hormone because it bears receptors for the hormone.

  8. Principal functions of the endocrine system • Maintenance of the internal environment in the body (maintaining the optimum biochemical environment). • Integration and regulation of growth and development. • Control, maintenance and instigation of sexual reproduction, including gametogenesis, coitus, fertilization, fetal growth and development and nourishment of the newborn.

  9. Classic endocrine hormones travel via bloodstream to target cells. • Neurohormones are released via synapses and travel via the bloostream. • Paracrine hormones act on adjacent cells. • Autocrine hormones are released and act on the cell that secreted them. • Also, intracrine hormones act within the cell that produces them. Types of cell-to-cell signaling

  10. Endocrine action: the hormone is distributed in blood and binds to distant target cells. • Paracrine action: the hormone acts locally by diffusing from its source to target cells in the neighborhood. • Autocrine action: the hormone acts on the same cell that produced it. Response vs. distance traveled

  11. Endocrine System • Control pathways: may be through: • Negative feedback loops • Stabilizing a function and maintain it within a normal range • Response is in opposition to stimuli • Homeostatic control

  12. Positive feedback loops • Response reinforces the stimulus • Response destabilizes the variable • Requires an event outside the loop to stop them • Feed-forward control • Anticipates change (act as a forerunner or Expecting) • Starts the response loop before the change has occurred

  13. Control systems vary in their speed & specificity • Specificity • Nervous control very specific • Hormonal control more general • Nature of signal • Nervous system uses both electrical and chemical • Endocrine system uses only chemicals • Speed • Nervous system much faster, up to 120 m/sec • Endocrine system much slower • Duration of action • Nervous system shorter, very brief • Endocrine system lasts longer

  14. Endocrine System • It brings about changes via chemical messengers, hormones, released into the blood stream and carried to target organs. • Endocrinology - the study of hormones and the endocrine organs. • Endocrine system - all of the glands that secrete hormones

  15. Endocrine and exocrine glands • Exocrine glands - have ducts through which their nonhormonal products travel to the membrane surface and to the exterior (epithelial surface) • Endocrine glands - release their substances into the surrounding fluid (ductless glands). They include the pituitary, thyroid, parathyroid, adrenal, pineal, and the thymus glands. Also included are the pancreas and gonads. The hypothalamus is called a neuroendocrine organ.

  16. Endocrine System, Hormones • Hormones - chemical messengers carried by the blood from endocrine glands to the cell upon which they act. • Are chemical messengers • Secreted into the blood by endocrine cells or neurons • Affect distal targets • Affect target cells by controlling: • Rate of enzymatic reactions • Transport of molecules across cell membrane • Gene expression and protein synthesis • Stimulation of mitosis

  17. Endocrine System, Hormones • Classification • Peptide hormones - 3 or more amino acids • Steroid hormones - derived from cholesterol • Amine hormones - single amino acids

  18. Endocrine System, Hormones • Classification, Peptide hormone - eg: Insulin • Synthesis - RER, preprohormone. • Packaged in vescicles. • In Golgi apparatus, pre to pro hormone then to hormone and fragments. • Released into ECF when cell is signaled to do so. • Transported in blood, half-life – minutes. • Mechanism of action - bind to cell surface receptors. Many use cAMP and some use tyrosine kinase. • Action - open or close membrane channels or modulate metabolic enzymatic activity or transport proteins.

  19. Peptide hormone synthesis, packaging, • and release

  20. Endocrine System, Hormones • Classification, Steroid hormones, e.g: estradiol • Synthesis - SER, lipophilic, sythesized as needed • Found bound (inactive) to protein carriers in blood • Half-life - hours • Mechanism - diffuses across cell membrane to cytoplasmic and nuclear receptors. Interact with DNA • Slow response by cells - hours

  21. Endocrine System, Hormones • Action of Steroid Hormones

  22. Endocrine System, Hormones • Classification, Amine hormones: • Nitrogen-containing. • Most derived from tryptophan or tyrosine. • They behave like peptide hormones (catecholamines) or like steroid hormones (thyroid hormones). • Thyroid hormones: produced by thyroid gland found in the lower part of the neck. It secretes 3 hormones: • Thyroxine - T4 • Triiodothyromine - T3 • Calcitonin • The first two are collectively known as thyroid hormones (TH) and contain iodine. • Virtually every tissue in the body is affected by TH.

  23. Endocrine System, Hormones • Amine hormone, Adrenal medullary hormones: • The adrenal gland consists of a medullary and cortical section. The cortex secretes steroid hormones. • The adrenal medulla secretes two hormones: • Epinephrine (E) and • Norepinephrine (NE) • These are also called catecholamines.

  24. Endocrine System, Hormones • Second messenger mechanisms of amino • acid-based hormones

  25. Quiz • It takes much longer for sex hormones and other steriods to produce their effects than it takes nonsteroid hormones. Why? • A. Steroids are bigger, slower molecules • B. Steroids usually must be carried longer distances in the blood • C. Steroids cause target cells to make new proteins, which takes time • D. Steroids must relay their message via a second messenger • E. It takes longer for endocrine cells to make and secrete steroids

  26. Endocrine System, Hormones • Steroid hormones • Produced by the adrenal cortex, the gonads, and the placenta. • All steroid hormones are derived from cholesterol and differ only in the ring structure and side chains attached to it. • All steroid hormones are lipid soluble

  27. Steroid hormones • When the structure is modified, a series of suffixes is used to indicate the change. • If the name of the compound ends in. –ane,then the molecule has single bonds between the carbon atoms in the rings. • If there are double bonds between the carbon atoms, the suffix -eneis used.

  28. Steroid hormones • If a hydrogen atom is replaced by an -OH group, the suffix -olis used as in cholesterol; cortisoland oestradiol.

  29. Steroid hormones • If two hydrogen atoms are replaced by an oxygen atom, the suffix -one is employed, as in aldosteroneand progesterone.

  30. Types of steroid hormones • Glucocorticoids; cortisol is the major representative in most mammals. • Mineralocorticoids; aldosterone being most prominent. • Androgens such as testosterone. • Estrogens, including estradiol and estrone. • Progestogens (also known a progestins) such as progesterone.

  31. Steroid hormones • Are not packaged, but synthesized and immediately released. • Are all derived from the same parent compound: Cholesterol. • Enzymes which produce steroid hormones from cholesterol are located in mitochondria and smooth ER. • Steroids are lipid soluble and thus are freely permeable to membranes so are not stored in cells.

  32. Steroid hormones • Steroid hormones are not water soluble so have to be carried in the blood complexed to specific binding globulins. • Corticosteroid binding globulin carries cortisol. • Sex steroid binding globulin carries testosterone and estradiol. • In some cases a steroid is secreted by one cell and is converted to the active steroid by the target cell: an example is androgen which secreted by the gonad and converted into estrogen in the brain.

  33. Endocrine System, Hormones • Direct gene activation mechanism of • steroid hormones

  34. Endocrine System, Control of Hormone Release • Endocrine glands are stimulated by humoral, neural and hormonal means. • Humoral stimuli - changing levels of blood ions and nutrients. Example: ↓calcium →↑parathyroid hormone. • Neural stimuli - nerve fiber stimulates hormonal release. Example: ↑nervous input to adrenal medulla → release of catecholamines • Hormonal stimuli (tropic hormones) - endocrine glands release their hormones in response to hormones produced by other endocrine organs. Example: hypothalamic hormones → anterior pituitary to release hormones → other endocrine glands to produce even more hormones.

  35. Endocrine System, Neurohormones • Hypothalamic-pituitary system • Pituitary gland - lies just below hypothalamus, in pocket of bone at base of brain. Consists of two adjacent lobes - the anterior pituitary and the posterior piruitary • Posterior pituitary hormones • Oxytocin and vasopressinare released • Made in hypothalamus, move down the neural axons and accumulate in the axon terminals in the posterior pituitary • Vasopressin - blood pressure and kidney function • Oxytocin - breasts and uterine contractions

  36. Endocrine System, Neurohormones • Hypothalamus and Anterior Pituitary: • The hypothalamus also secretes hormones that control the secretion of ALL the anterior pituitary hormones. The basic pattern is as follows: • Secretion of a hypothalamic hormone, which controls secretion of • An anterior pituitary hormone, which controls the secretion of • A hormone from some other endocrine organ/gland • Anterior Pituitary Hormones • At least eight secreted, six with well-established functions

  37. Endocrine System, Neurohormones

  38. Endocrine System, Neurohormones Stimulus Hypothalamus ↑Hormone 1 Secretion ↑Plasma Hormone 1 Anterior Pituitary ↑Hormone 2 Secretion ↑Plasma Hormone 2 Third Endocrine Gland ↑Hormone 3 Secretion ↑Plasma Hormone 3 Target Cells Respond to Hormone 3

  39. Endocrine System • Hypothalamic Releasing Hormones: • Corticotropin Releasing Hormone (CRH) • Thyrotropin Releasing Hormone (TRH) • Growth Hormone Releasing Hormone (GHRH) • Somatostatin (SS) also called Growth hormone releasing Inhibitin Hormone (GIH) • Gonadotropin Releasing Hormone (GnRH) • Prolactin Releasing Hormone (PRH) • Prolactin releasing Inhibiting Hormone (PIH)

  40. Endocrine System • Anterior Pituitary Hormones: • Gonadotropic Hormones • Follicle-Stimulating Hormone (FSH) • Luteinizing Hormone (LH) • Growth Hormone (GH) • Thyroid-stimulating Hormone (TSH) • Prolactin • Adreno Cortico Tropic Hormone (ACTH) • β-Lipotropic Hormone • β-Endorphin

  41. Hypothalamus GnRH GHRH SS TRH PIH PRH CRH Anterior Pituitary GROWTH HORMONE TSH ACTH PROLACTIN FSH and LH Liver Other organs Thyroid Breasts Adrenal cortex Gonads Germ cell development Growth Metabolism Thyroxine T3 Development Milk IGF-1 Hormones-estrogen, progesterone and testosterone Cortisol Summary of Hypothalamic-anterior-pituitary system

More Related