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Growth hormone neurotransmitter effect

Receptor Class Mu (pi) Primary Therapeutic Effect(s) Spinal and supraspinal analgesia Other Effects Sedation respiratory depression constipation inhibits neurotransmitter release (acetylcholine, dopamine) increases hormonal release (prolactin growth hormone)... [Pg.185]

Fluoroaluminate complexes can mimic the action of many hormones, neurotransmitters, and growth factors. G-protein-mediated cell responses are key steps in neurotransmission and intercellular signaling in the brain [20], and TFA acts as an active stimulatory species [21]. Exposure of osteoblasts to TFA results in a marked potentiation of intracellular orthophosphate transport, alluding to the anion s ability to increase bone mineralization [22]. Brief exposure to aluminum fluoride complexes induces prolonged enhancement of synaptic transmission [23] and can potentially affect the activity of many other ion channels and enzymes in the kidney [24]. Rapid and dynamic changes of the cytoskeletal actin network are of vital importance to the motility of many cells, and TFA induction effects a pronounced and sustained... [Pg.184]

Animal experiments have shown caffeine-mediated effects at the neuroendocrine level, such as increased serum corticosterone and /3-endorphin and decreased serum growth hormone and thyrotropin, but it is expected that habitual human consumption has only marginal or inconsistent neuroendocrine effects. Caffeine is described as a central nervous system (CNS) stimulant, and the increased formation and release of neurotransmitters such as catecholamines. [Pg.67]

In Chapter 11 the effects of binding of hormones to cell surface receptors have been emphasized. Equally important are the mechanisms that control the secretion of hormones. The topic of exocytosis has been considered briefly in Chapter 8, Section C,6 and aspects of the Golgi in Fig. 20-8 and associated text. Both hormones and neurotransmitters are secreted by exocytosis of vesicles. Cells have two pathways for secretion.386 387 The constitutive pathway is utilized for continuous secretion of membrane constituents, enzymes, growth factors, viral proteins, and components of the extracellular matrix. This pathway carries small vesicles that originate in the trans-Golgi network (TGN Fig. 20-8). The regulated pathway is utilized for secretion of hormones and neurotransmitters in response to chemical, electrical, or other stimuli. [Pg.1762]

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See also in sourсe #XX -- [ Pg.1968 ]



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