Pirone Andrea, Miragliotta Vincenzo, Ciregia Federica, Giannessi Elisabetta, Cozzi Bruno
Department of Veterinary Sciences, University of Pisa, Pisa, Italy.
Department of Clinical and Experimental Medicine, University of Pisa, Pisa, Italy.
J Anat. 2018 Jan;232(1):158-166. doi: 10.1111/joa.12706. Epub 2017 Oct 1.
Over the past decades, the number of studies employing the pig brain as a model for neurochemical studies has dramatically increased. The key translational features of the pig brain are the similarities with the cortical and subcortical structures of the human brain. In addition, the caudalmost part of the pig claustrum (CL) is characterized by a wide enlargement called posterior puddle, an ideal structure for physiological recordings. Several hypotheses have been proposed for CL function, the key factor being its reciprocal connectivity with most areas of the cerebral cortex and selected subcortical structures. However, afferents from the brainstem could also be involved. The brainstem is the main source of catecholaminergic axons that play an important neuromodulatory action in different brain functions. To study a possible role of the CL in catecholaminergic pathways, we analyzed the presence and the distribution of afferents immunostained with antibodies against tyrosine hydroxylase (TH) and dopamine betahydroxylase (DBH) in the pig CL. Here we show that the CL contains significant TH immunoreactive axons contacting perikarya, whereas projections staining for DBH are very scarce. Our findings hint at the possibility that brainstem catecholaminergic afferents project to the CL, suggesting (i) a possible role of this nucleus in functions controlled by brainstem structures; and, consequently, (ii) its potential involvement in the pathophysiology of neurodegenerative pathologies, including Parkinson's disease (PD).
在过去几十年中,将猪脑用作神经化学研究模型的研究数量急剧增加。猪脑的关键转化特征在于其与人类大脑皮质和皮质下结构的相似性。此外,猪屏状核(CL)的最尾端部分具有一个称为后池的广泛扩大区域,这是进行生理记录的理想结构。关于CL的功能已经提出了几种假说,关键因素是它与大脑皮质的大多数区域以及选定的皮质下结构的相互连接。然而,来自脑干的传入神经也可能参与其中。脑干是儿茶酚胺能轴突的主要来源,这些轴突在不同的脑功能中发挥重要的神经调节作用。为了研究CL在儿茶酚胺能通路中的可能作用,我们分析了猪CL中用抗酪氨酸羟化酶(TH)和多巴胺β羟化酶(DBH)抗体免疫染色的传入神经的存在和分布。在这里我们表明,CL含有大量与胞体接触的TH免疫反应性轴突,而DBH染色的投射非常稀少。我们的发现暗示脑干儿茶酚胺能传入神经可能投射到CL,这表明(i)该核在由脑干结构控制的功能中可能发挥作用;因此,(ii)它可能参与包括帕金森病(PD)在内的神经退行性疾病的病理生理学。