Noradrenaline:Within the central nervous system(CNS),the primary source of the catecholamine neurotransmitter noradrenaline is the locus coeruleus(LC)in the pontine tegmentum,with LC neurons projecting to almost all r...Noradrenaline:Within the central nervous system(CNS),the primary source of the catecholamine neurotransmitter noradrenaline is the locus coeruleus(LC)in the pontine tegmentum,with LC neurons projecting to almost all regions of the brain and spinal cord.Following its release from LC neurons,noradrenaline has wide ranging effects.For example,noradrenaline is the endogenous agonist for G-coupledα-andβ-adrenoceptors that are expressed on many cell types,including neurons and glia,in both the peripheral nervous system and CNS.It is via these receptors that noradrenaline exerts its anti-inflammatory and neurotrophic effects in the brain.Noradrenaline additionally has adrenoceptor-independent neuroprotective actions,and as such plays a role in free radical scavenging and reducing oxidative stress(Feinstein et al.,2016).展开更多
文摘Noradrenaline:Within the central nervous system(CNS),the primary source of the catecholamine neurotransmitter noradrenaline is the locus coeruleus(LC)in the pontine tegmentum,with LC neurons projecting to almost all regions of the brain and spinal cord.Following its release from LC neurons,noradrenaline has wide ranging effects.For example,noradrenaline is the endogenous agonist for G-coupledα-andβ-adrenoceptors that are expressed on many cell types,including neurons and glia,in both the peripheral nervous system and CNS.It is via these receptors that noradrenaline exerts its anti-inflammatory and neurotrophic effects in the brain.Noradrenaline additionally has adrenoceptor-independent neuroprotective actions,and as such plays a role in free radical scavenging and reducing oxidative stress(Feinstein et al.,2016).
