Storage granules

The sympathetic or adrenergic nervous system operates in juxtaposition to the parasympathetic nervous system to maintain homeostasis in response to physical activity and physical or psychological stress. Sympathomimetic neurotransmission is generally mediated by norepinephrine [51-41 -2] (1), CgH NO, released from presynaptic storage granules upon stimulation. A second endogenous sympathomimetic agent, epinephrine [51-43-4] (2),... 

Figure 46-6. Flow of membrane proteins from the endoplasmic reticulum (ER) to the cell surface. Horizontal arrows denote steps that have been proposed to be signal independent and thus represent bulkflow. The open vertical arrows in the boxes denote retention of proteins that are resident in the membranes of the organelle indicated. The open vertical arrows outside the boxes indicate signal-mediated transport to lysosomes and secretory storage granules. (Reproduced, with permission, from Pfeffer SR, Rothman JE Biosynthetic protein transport and sorting by the endoplasmic reticulum and Golgi. Annu Rev Biochem 1987 56 829.)...

Platelets adherent to collagen change shape and spread out on the subendothelium. They release the contents of their storage granules (the dense granules and the alpha granules) secretion is also stimulated by thrombin. 

The answers are 318-d, 319-c, 320-a. (Hardman, pp 120-1220 Norepinephrine is synthesized from dopamine by dopamine-p-oxidase, which hydnoxylates the p-carbon This enzyme is localized in the amine storage granules. Norepinephrine is found in adrenergic fibers, the adrenal medulla, and in neurons in the locus ceruleus and lateral ventral tegmental fields of the CNS. 

Reserpine depletes norepinephrine from sympathetic nerve endings and blocks the transport of norepinephrine into its storage granules. When the nerve is stimulated, less than the usual amount of norepinephrine is released into the synapse. This reduces sympathetic tone, decreasing peripheral vascular resistance and BP. 

Trace metals Zinc Red meats, shellfish, wholegrain cereals Involved in many metabolic reactions stabilisation of structure RNA, DNA and ribosomes Binding of some transcription factors to DNA Stabilisation of insulin complex in storage granules... 

Oxypertine, with its novel stmcture and apparently promising therapeutic characteristics is a drug worthy of further study. Its specificity for catecholamine storage granules has already been exploited as a research tool [167, 170-3, 180 181] and its continued use for this purpose can be expected to yield further fundamental information. 

The noradrenaline normally contained in the storage granules can be partly or completely replaced by structurally related sympathomimetic amines, either by injection of the amine itself, or of suitable precursors such as a-methyl-DOPA or a-methyl-w-tyrosine. These amines can be depleted from the heart by guanethidine in the same way as the noradrenaline which they had replaced. a-Methylnoradrenaline [337] and metaraminol [338] are depleted less readily than noradrenaline from rabbit or rat hearts, whereas dopamine, octopamine and w-octopamine are depleted more readily than noradrenaline [339]. The more rapid depletion of these last three compounds was attributed to weaker binding in the storage granules [339], but could equally well be due to their greater susceptibility to destruction by monoamine oxidase, since both a-methyl-noradrenaline and metaraminol are resistant to attack by monoamine oxidase. 

Mast Cells and Basophils. The chief sites of histamine storage are mast cells in the tissues and basophils in blood. These cells synthesize histamine and store it in secretory granules along with a heparin-protein complex. In response to specific antigens, mast cells or basophils are sensitized. Histamine is then secreted from the storage granules. Besides the histamine stores in mast cells and basophils, there is evidence of non-mast cell histamine in some tissues, particularly gastric and intestinal mucosa (60). 

The effects of histamine on body tissues and organs can be diminished in four ways inhibition of histamine synthesis, inhibition of histamine release from storage granules, blockade of histamine receptors, and physiological antagonism of histamine s effects. Of these approaches, only the inhibition of histamine synthesis has not been employed clinically. The focus of this chapter is on Hi histamine receptor antagonists it provides a brief overview of the H2 blockers and the inhibitors of histamine release. More details can be found in Chapters 39 and 40. 

Glucose-induced stimulahon of insulin release from cells is biphasic. The initial rapid rise in insulin that follows a rise in glucose is termed the first phase of insulin release and is thought to reflect the release of the presynthesized insulin in the storage granules a more... 

Despite the documented efficacy and safety of the psychostimulants, their mechanism of action is not fully understood. Stimulants affect central nervous system (CNS) dopamine (DA) and norepinephrine (NE) pathways crucial in frontal lobe function. The stimulants act by causing release of catecholamines from the DA axons and blocking their reuptake. Methylphenidate releases catecholamines from long-term stores, so its effects can be blocked by pretreatment with reserpine. Amphetamines, on the other hand, release catecholamines from recently formed storage granules near the surface of the presynaptic neuron, so their action is not blocked by reserpine. In addition, the stimulants bind to the DA transporter in striatum (see Figures 2.6 and 2.7) and block the reuptake of both DA and NE. This action reduces the rate that catecholamines are removed from the synapse back into the axon and leads... 

Pellet particles and organelles Ribosomes, storage granules, mitochondria, chloroplasts, lysosomes, endoplasmic reticulum. 

Storage granules 0.05-2 pm Consist of polysaccharide, lipid, polyhydroxybutyrate and sulphur. 

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