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Adrenal Glands

Adrenal Glands. Significance. The adrenal glands are complex polyfunctional organs whose secretions are required for maintenance of life Adrenal cortical hormones directly or indirectly affect almost every physiological process and hence are central to the maintenance of homeostasis

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Adrenal Glands

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  1. Adrenal Glands

  2. Significance The adrenal glands are complex polyfunctional organs whose secretions are required for maintenance of life Adrenal cortical hormones directly or indirectly affect almost every physiological process and hence are central to the maintenance of homeostasis Insufficiency of adrenal cortical hormones produced by pathological destruction or surgical removal of the adrenal cortices results in death within one to two weeks unless replacement therapy is instituted

  3. Significance Virtually every organ system goes awry with adrenal cortical insufficiency, but the most likely cause of death appears to be circulatory collapse secondary to sodium depletion When food intake is inadequate, death may result instead from insufficient amounts of glucose in the blood (hypoglycemia)

  4. Morphology • The adrenal glands are bilateral structures situated above the kidneys • They are comprised of: • Cortex • The outer region • Normally makes up more than three-quarters of the adrenal mass • Medulla • The inner region

  5. The Adrenal Cortex • The fasciculata and reticularis, which produce both cortisol and the adrenal androgens, are functionally separate from the zonaglomerulosa • The cortex is subdivided histologically into three zones • ZonaGlomerulosa • Cells in the outer region • Arranged in clusters (glomeruli) • ZonaFasciculata • Comprises the bulk of the cortex • rows of lipid-laden cells are arranged radially in bundles of parallel cords (fasces) • ZonaReticularis • The inner region • Consists of a tangled network of cells

  6. Categories of Adrenal Cortical Hormones • Adrenal cortical hormones have been divided into three categories based on their functions • The mineralocorticoids which are necessary for maintenance of sodium and potassium balance • Aldosterone • Deoxycorticosterone • The glucocorticoids and are so named for their ability to maintain carbohydrate reserves in addition to a variety of other effects • Cortisol • Corticosterone (to a lesser extent)

  7. Categories of Adrenal Cortical Hormones The principal adrenal steroid hormones • Androgens, which as their name implies, have biological effects similar to those of the male gonadal hormones • Adrenal androgens mediate some of the changes that occur at puberty • Play an important role during fetal life • They are closely related to steroid hormones produced by the testis and ovary and are synthesized from common precursors

  8. Synthesis of Steroid Hormones • The starting material for steroid hormone biosynthesis is cholesterol • most of which arrives at the adrenal cortex in the form of low density lipoproteins • taken up avidly from blood by a process of receptor-mediated endocytosis • Adrenal cortical cells also synthesize cholesterol from carbohydrate or fatty acid precursors • Substantial amounts of cholesterol are stored in steroid hormone-producing cells in the form of fatty acid esters

  9. Synthesis of Steroid Hormones Key reactions in the biosynthesis of the adrenal hormones are catalyzed by a particular class of oxidizing enzymes, the cytochromes P450 The rate-limiting step in the biosynthesis of all the steroid hormones is the conversion of the 27-carbon cholesterol molecule to the 21-carbon pregnenolonemolecule The rate of steroid hormone biosynthesis is determined by the rate at which cholesterol is presented to P450scc and converted to pregnenolone • All reactions are catalyzed by a single enzyme, cytochrome P450 scc

  10. Synthesis of Steroid Hormones To gain access to the enzyme, cholesterol must first be released from its esterified storage form in the cytosol by the action of an esterase The free, but water insoluble cholesterol must then be transferred to the mitochondrial surfaces through the help of cholesterol binding proteins with participation of cytoskeletal elements, and then must enter the mitochondria Passage across the mitochondrial membrane bilayer requires synthesis and phosphorylation of the short-lived steroid acute regulatory (StAR) protein Blockade of StARsynthesis blocks steroidogenesis The exit of pregnenolone does not need StAR

  11. Pregnenolone is the common precursor of all steroid hormones produced by the adrenals or the gonads Different enzymes are involved in the synthesis of steroid hormones from Pregnenolone which involve different oxidation reactions

  12. Control of Adrenal Cortical Hormone Synthesis Adrenocorticotropic hormone (ACTH) secreted by the anterior pituitary gland maintains normal secretory activity of the zonafasciculataand reticularis of the adrenal cortex After removal of the pituitary gland, little or no steroidogenesis occurs in the zonafasciculata or reticularis, but the zonaglomerulosa continues to function In cells of all three zones, ACTH interacts with a G-protein-coupled membrane receptor, the melanocortin2 (MR2) receptor, and triggers production of cyclic AMP Cyclic AMP activates protein kinase A, which catalyzes the phosphorylation of a variety of proteins and thereby modifies their activity

  13. Control of Adrenal Cortical Hormone Synthesis AC: adenylyl cyclase, StAR: steroid acute regulatory protein Stimulation of steroidogenesis by ACTH in zonafasciculatacells Conversion of cholesterol to pregnenolonerequires mobilization of cholesterol from its storage droplet and transfer to the P450scc enzyme on the inner mitochondrial membrane ACTH may also increase cholesterol uptake by increasing the number or affinity of low density lipoprotein (LDL) receptors

  14. Control of Adrenal Cortical Hormone Synthesis • In the zonaefasciculata and reticularis this results in: • accelerated deesterification of cholesterol esters, • increased transport of cholesterol to the mitochondria, • increased activity of preexisting StAR protein • and increased synthesis of StAR protein • Thus the immediate actions of ACTH accelerate the delivery of cholesterol to the P450scc enzyme on the inner mitochondrial membrane to form pregnenolone • With continued stimulation, ACTH, acting through cyclic AMP and protein kinase A, also stimulates transcription of genes encoding the P450 enzymes, the LDL (low density lipoprotein) receptor responsible for uptake of cholesterol, and the StAR protein

  15. Control of Adrenal Cortical Hormone Synthesis ACTH either directly or indirectly also increases blood flow to the adrenal glands Increased blood flow provides not only needed oxygen and metabolic fuels, but also increases the capacity to deliver newly secreted hormone to the general circulation Unlike other endocrine cells, steroid-producing cells do not store hormones, and hence biosynthesis and secretion are components of a single process regulated at the step of cholesterol conversion to pregnenolone

  16. Control of Adrenal Cortical Hormone Synthesis ACTH is the only hormone known to control synthesis of the adrenal androgens which are produced primarily in the zonareticularis Little or no androgen is produced in young children whose adrenal glands contain only a rudimentary zonareticularis The reticularis with its unique complement of enzymes develops shortly before puberty Puberty is preceded by a dramatic increase in production of the adrenal androgens principally dehydroepiandrosterone sulfate (DHEAS), which are responsible for growth of pubic and axillary hair

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