Neurons nucleus

X3 NM 002559 Dorsal root ganglion, superficial dorsal horn of spinal cord, a subset of small-diameter sensory neurons, nucleus of the solitary tract, spinal trigeminal nucleus (important for peripheral pain)... 

When the creation of long-term memories— repeated stimulations interrupted by rest periods—was simulated in this preparation by repeated pulses of serotonin, anatomical changes occurred. Specifically, new synaptic connections were created. It is likely that there are two underlying components to formation of new synaptic connections. One is local protein synthesis in the nerve terminal and the other is CREB (cAMP response element binding) dependent transcription in the neuronal nucleus. Of course, serotoiun pulses also stimulated the release of glutamate. So now the question is how repeated pulses of serotonin are related to protein synthesis and formation of new synapses. 

What happens inside a nerve cell when it moves The intracellular mechanisms of nerve cell movements are complicated. First an extension of the neuron is sent out, and then the neuron nucleus follows the extension.13 This sort of process depends on a network of special macromolecules... 

CGRP is widely distributed throughout the peripheral and central nervous systems and is found ia sensory neurons and ia the autonomic and enteric nervous systems. In many iastances CGRP is co-localized with other neuroregulators, eg, ACh ia motor neurons, substance P, somatostatin, vasoactive intestinal polypeptide (VIP), and galanin ia sensory neurons. It is also present ia the CNS, with ACh ia the parabigeminal nucleus and with cholecystokinin (CCK) ia the dorsal parabrachial area. CGRP functions as a neuromodulator or co-transmitter. 

Neurons have three parts the cell body and dendrites, the axon, and axon terminals. The cell body contains the nucleus and the organelles needed for metabolism, growth, and repair. The dendrites are branched extensions of the cell body membrane. The axon is a long, thin structure which transfers electrical impulses down to the terminals. The axon divides into numerous axon terminals and it is in this specialized region that neurotransmitters are released to transmit information from one neuron to its neighbors. The synapse has been defined as the space between two subsequent interrelated neurons. ... 

Two distinct populations of neurons in the arcuate nucleus have been identified as the most relevant target cells of leptin (Fig. 1, [2, 4]). Leptin inhibits expression... 

Lesions of the lateral hypothalamic area (LHA) cause anorexia, whereas ablation of the paraventricular nucleus (PVN) cause a hyperphagic obesity syndrome. Consistent with these results, LHA neurons express the orexigenic neuropeptides MCH and orexin. PVN neurons produce several neuropeptides that are anorex-igenic when administered directly into the brain (CRH, TRH, oxytocin), in addition to their better known roles as endocrine regulators. LHA and PVN receive rich inputs from axons of NPY/AgRP and aMSH/CART-producing neurons in the arcuate nucleus. 

CART (cocaine- and amphetamine-regulated transcript) is a hypothalamic peptide that inhibits both normal and starvation-induced feeding when injected into cerebral ventricles of rats. CART is co-localized with the anorexigenic peptide a-melanocyte-stimulating hormone in neurons of the arcuate nucleus. Secretion of CART is stimulated by leptin and CART may be an endogenous inhibitor of food intake. 

In the gastrointestinal tract, drugs or toxins, as well as mechanical stimulation, induce emesis by activation of sensory receptors on afferent neurons in the vagus and sympathetic nerves. Information is relayed to the vomiting centre via the nucleus tractus solitarius... 

The neurokinin, substance P (SP), may be involved as a sensory transmitter in afferent vagal nerves involved in the vomiting reflex. Both SP and its receptors (NKi receptors) have been detected in several areas of the brain associated with vomiting, including the AP, NTS and dorsal motor vagal nucleus. The neurokinin can activate neurons in the AP and NTS. SP is present also in sensory nerves in the gut as well as being co-localised with serotonin in some enterochromaffin cells. 

Release of SP from neurons in the AP, NTS and dorsal vagal motor nucleus may play a role in vomiting induced by cytotoxics. Based on the relative effectiveness of selective antagonists of 5-HT3 receptors and NKi receptors against acute and delayed phases of cisplatin-induced vomiting, it has been suggested that serotonin has a greater role in the acute phase whereas SP has the major role in the delayed phase. 

Hi-receptors in the adrenal medulla stimulates the release of the two catecholamines noradrenaline and adrenaline as well as enkephalins. In the heart, histamine produces negative inotropic effects via Hr receptor stimulation, but these are normally masked by the positive effects of H2-receptor stimulation on heart rate and force of contraction. Histamine Hi-receptors are widely distributed in human brain and highest densities are found in neocortex, hippocampus, nucleus accumbens, thalamus and posterior hypothalamus where they predominantly excite neuronal activity. Histamine Hrreceptor stimulation can also activate peripheral sensory nerve endings leading to itching and a surrounding vasodilatation ( flare ) due to an axonal reflex and the consequent release of peptide neurotransmitters from collateral nerve endings. 

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