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Endocrine System Department of Histology and Embryology Yu hongwei

Endocrine System Department of Histology and Embryology Yu hongwei. Introduction. I Composition Endocrine glands( thyroid,parathyroid,adrenal gland, hypophysis ,and pineal body ) Endocrine cell mass Endocrine cells. Introduction. II Function

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Endocrine System Department of Histology and Embryology Yu hongwei

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  1. Endocrine System Department of Histology and Embryology Yu hongwei

  2. Introduction I Composition • Endocrine glands(thyroid,parathyroid,adrenal gland, hypophysis ,and pineal body) • Endocrine cell mass • Endocrine cells

  3. Introduction II Function • Regulate the activities of various cells,tissues,and organs in the body. • Maintain homeostasis and coordinate body growth and development. The endocrine system interacts closely with the nervous system and the lymphatic system.

  4. Characteristics of endocrine glands • Cells are arranged in cord, follicle, aggregation or net-like structure, • Ductless. • containing richblood

  5. What is Hormone? • Hormone is molecule that function as chemical signals. • Most hormones act at a distance from the site of their secretion. Therefore,the endocrine cells are always close to the capillaries,which receive the secrete hormones.

  6. Response • Endocrine action: the hormone is distributed in blood and binds to distant target cells.Paracrine action: the hormone acts locally by diffusing through the extracellular matrix in the neighborhood.Autocrine action: the hormone acts on the same cell that produced it.

  7. Classification of the Hormones • Steroids(cholesterol-derived compounds) • Small peptides,proteins,and glycoproteins • Amino acid(catecholamines)

  8. Steroids • These hormones are released into the bloodstream and transported to the target cells with the help of specialized carrier proteins.

  9. Small peptides,proteins,and glycoproteins • Hormones in this group ,when release into circulation,dissolve readily in the blood and do not require special carrier proteins.

  10. Amino acid • Including the catecholamines(norepinephrine and epinephrine • Hormones in this group ,when release into circulation,dissolve readily in the blood.

  11. How do the Hormones act on the target cell? The target cell have receptors that specifically recognize and response to the hormones. • Cell surface receptors(peptide hormones) • Intracellular receptors(steroid hormones)

  12. Thyroid gland • Locate in the cervical region anterior to the larynx,consists of two lobes united by an isthmus. • Its function is to synthesize the hormones thyroxine (T4)and triiadothyroxine(T3).

  13. Thyroid gland • It is composed of thyroid follicle.The follicles are lined by a simple epithelium. • The central cavity contains a gelatinous substance called colloid, which is composed of a glycoprotein of high molecular mass called thyroglobulin.

  14. Follicular epithelium • Follicular cells • Parafollicular cells

  15. Follicular cells • These cells vary in shape and size according to the functional state of the gland. • They are responsible for production of thyroxine (T4)and triidothyroxine(T3).

  16. Ultrastructure of follicular cells • Short microvilli on the apical surface. • Golgi complex,mitochodria,lysosome, rough endothelial reticulum(rER) are present in the cytoplasm.

  17. Formation of T3 and T4 by follicular cells • 1. Synthesis of thyroglobulin AA→ RER→ thyroglobulin → Golgi complex(secreting granules) → colloid. • 2. The uptake of circulating iodide Iodide → membrane transport protein (NIS)→cytoplasm

  18. Formation of T3 and T4 by follicular cells • 3. iodide oxidation by thyroid peroxidase in cytoplasm → colloid • 4.Iodination of thyroglobulin. Active iodide bound to thyroglobulin → iodated thyroglobulin(MIT,DIT) →The coupling of these molecules (MIT,DIT) produce T3 and T4.

  19. Liberation of T3 and T4 by follicular cells • Resorption of colloid When Stimulated by TSH, Follicular cellstake up thyroglobulin by endocytosis, then digested by lysosomal enzymes. • Release of T4 and T3 into circulation T4 and T3 cross the basal membrane and are discharged into the capillaries.

  20. Major function of T4 and T3 • regulate growth and development :most cells require T3/T4 for growth. The nervous system is especially sensitive. • calorigenic effect: T3/T4 increase basal metabolic rate (BMR) and affect temperature regulation. • cardiovascular effects: increase heart rate.

  21. hypothyroidism • hypothyroidism means circulating levels of T3/T4 are below normal. In children this leads to cretinism and in adults myxedema. • Adults suffering from hypothyroidism show a very low rate of metabolism and are extremely lethargic. Body temperature and heart rate are all low.

  22. cretinism • Congenital absence of T3 and T4, or chronic iodine deficiency in infancy. • Cretinism is associated with retarded growth, sluggish movements,and severe mental deficiencies.

  23. Hyperthyroidism • In the adult, hyperthyroidism means circulating levels of T3/T4 are above normal. • It is associated with a high rate of metabolism, high body temperature, and high heart rates.   • There are several types of hyperthyroidism including is termed Grave's Disease which is an autoimmune disorder.

  24. Graves' disease • is a autoimmune disorder in which the body makes antibodies to the thyroid-stimulating hormone receptor (TSHR), The autoantibodies produced in Graves' disease are not subject to negative feedback, so they continue to be produced and bind to TSHR even when thyroid hormone levels rise too high. • A sign often associated with hyperthyroidism is protrusion of the eyeballs.

  25. Locate in the follicular epithelium or as isolated among thyroid follicles. Larger than follicular cells and less stained. Secrete calcitonin, which can decrease the blood Ca2+ level by inhibiting the activity of osteoclasts. Parafollicular cells (C cells)

  26. Parafollicular cells

  27. Parathyroid Four small glands Locate behind the thyroid gland

  28. Structure Cells are arranged in cords. • Chief cells(principal cells) • Oxyphil cells

  29. Chief cells • More numerous cells of the parathyroid gland. • Electron microscope shows granules in the cytoplasm.They are the secretory granules containing parathyroid hormones(PTH),which can increase the blood Ca2+ level.

  30. PTH is essential for life.Therefore,care must be taken during thyroidectomy.If the glands are totally removed,death will ensue because muscles,including the laryngeal and other respiratory muscles,go into tetanic contraction as the blood calcium level falls. • PTH and caltitonin have reciprocal effects in the regulation of blood calcium level .

  31. Oxyphil cells • They are larger than chief cells and their cytoplasm contains many acidophilic granules. The TEM reveals these granules are mitochondria. • The function is unknown.

  32. Homework • Describe the structure and function of the thyroid gland and parathyroid gland.

  33. Endocrine glands have ducts that carry their secretory product to a surface. TrueFalse

  34. 1. All of the following are endocrine glands EXCEPT:A.adrenal glandsB.sebaceous glandsC.pineal glandsD.pituitary glands

  35. 2. Hormones that enter target cells and bind to receptors in the nucleus are calledA. steroid hormones.B. water soluble hormones. C. peptide hormones.D. second messengers.

  36. 3. The hormones regulating blood calcium levels areA. insulin and glucagon.B. glycogen and parathyroid hormone.C. parathyroid hormone and calcitonin.D. estrogen and progesterone.

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