Adenyl cyclase hormonal activation

Note that these structures are related to that for the amino acid tyrosine, from which they are derived. The adrenal glands, small pieces of tissue that ride on top of the kidneys, secrete these hormones. When they activate adrenergic receptors on the surface of muscle cells, adenylate cyclase is activated, increased cAMP results, and the cascade of events in muscle cells is started (figure 17.1). 

When certain hormones (e.g., epinephrine) bind to their receptors in adipose tissue, adenylate cyclase is activated. The cAMP that is formed activates protein kinase A, which phosphorylates triacylglycerol lipase. The phosphorylated form of this enzyme is the active species, and triacylglycerols are degraded to fatty acids. 

The lipase must be converted into an active form. This conversion is regulated by cyclic-AMP produced from ATP by the enzyme adenylate cyclase. The activity of the cyclase is under the control of the catecholamine hormones such as noradrenalin which stimulate its activity, or prostaglandins (formed from dietary essential fatty acids, section 3.4) which inhibit its activity. Another feature of the control is the destruction of cyclic-AMP by a specific phosphodiesterase which is activated by xanthines, an example of which is caffeine, found in coffee. 

J (339), a 28-amino acid peptide, is a member of a family of stmctuially related peptides that includes secretin [1393-25-5] (340), growth hormone releasing factor (GRF), and pituitary adenylate cyclase-activating peptide (PACAP) [137061(341) (83). 

Figure 13.3 G protein-mediated activation of adenylate cyclase by hormone binding. Hormone binding on the extracellular side of a receptor such as the P adrenergic receptor activates a G protein on the cytoplasmic ATP side. The activated form of the G protein...

A G-protein-mediated effect has an absolute requirement for GTP. Reference has already been made to the requirement for GTP in reconstituting hormone-stimulated adenylate cyclase activity. A similar requirement can be demonstrated when the effector is an ion channel, such as the cardiac atrial inward-rectifier K+ channel which is activated following stimulation of the M2 muscarinic acetylcholine receptor. Thus, in the experiment illustrated in Figure 7.8, the channel recorded with a cell-... 

Hydrolysis of triacylglycerides in tissues is effected by a tissue enzyme, tri-acylglyceride lipase, which hydrolyzes triacylglycerides to glycerol and free fatty acids. There are a variety of tissue lipases that differ primarily in their optimum pH and their location in the cell. The acidic lipase is contained in lysosomes the basic lipase, in microsomes and the neutral lipase, in cytoplasm. A specific feature of the tissue lipase is its sensitivity to hormones which, by activating adenylate cyclase, elicit the transition of the inactive tissue lipase to its active... 

Epinephrine, a hormone made in the adrenal medulla and sympathetic nerve endings, calls for rapid mobilization of energy and glucose. Epinephrine, like glucagon, binds to specific cellular receptors and activates adenylate cyclase. For the most part, epinephrine can be considered... 

Calcitonin lowers serum Ca2+ and Pi levels, primarily by inhibiting the process of bone resorption, but also by decreasing resorption of Pi and Ca2+ in the kidney. Calcitonin receptors are predictably found primarily on bone cells (osteoclasts) and renal cells, and generation of cAMP via adenylate cyclase activation plays a prominent role in hormone signal transduction. 

The effects of Li+ upon this system have been reviewed in depth by Mork [131]. Animal studies originally demonstrated that Li+ inhibits cAMP formation catalyzed by adenylate cyclase in a dose-dependent manner [132]. The level of cAMP in the urine of manic-depressive patients changes with mental state, being abnormally elevated during the switch period between depression and mania it is proposed that Li+ s inhibitory effect upon adenylate cyclase activity may correct this abnormality. Subsequent research, in accord with the initial experiments, have shown that Li+ s interference with this second messenger system involves more than one inhibitory action. At therapeutic levels, Li+ inhibits cAMP accumulation induced by many neurotransmitters and hormones, both in... 

Li+ also inhibits several hormone-stimulated adenylate cyclases which, in some cases, appear to be related to side effects of Li+ therapy. For instance, Li+ inhibits the hydro-osmotic action of vasopressin, the antidiuretic hormone which increases water resorption in the kidney [136]. This effect is associated with polyuria, a relatively harmless side effect sometimes experienced with Li+ treatment, which arises from the inability of the kidney to concentrate urine. Li+ has been shown to inhibit vasopressin-stimulated adenylate cyclase activity in renal epithelial cells. Additionally, Li+ is reported to enhance the vasopressin-induced synthesis of prostaglandin E2 (PGE2) in vitro in kidney. PGE2 inhibits adenylate cyclase activity by stimulation of Gj, and, therefore, this effect may contribute to the Li+-induced polyuria. 

The presence of Li+ results in the reversible inhibition of the hormone-induced meiotic maturation of starfish oocytes [226], and also reverses the inhibitory effect of forskolin on the spontaneous resumption of meiosis in uncoated mouse oocytes in vitro [227]. In the latter case, the effect of Li+ upon the adenylate cyclase response occurs only after it has been activated by forskolin. 

Some signal pathways that activate the adenylate cyclase phosphorylate tyrosine residues (Y535) of the TAF2 domain, which, as previously mentioned, is dependent on hormone binding. In this case, modulation of the transcription... 

Parathyroid hormone (PTH) regulates calcium levels in blood and bone remodeling. The activation domain of that 84-amino acid polypeptide locates around the N-terminal (1-34 amino acids). Parathyroid hormone receptor is a typical G-protein coupled receptor, which is coupled to both adenyl cyclase/cAMP and PLCy/IP3/cytosolic Ca2+ intracellular signaling pathways. In order to identify the structural elements involved in the peptide hormone binding and signal initiation, Chorev et al. employed a photoaffinity scanning approach. The N-terminal amino acids were successively deleted or modified and the new N-terminus was replaced for photoreactive Bpa. The most active peptide ana-... 

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