Three-dimensional organization of the brain and distribution of serotonin in the brain and ovary, and its effects on ovarian steroidogenesis in the giant freshwater prawn, Macrobrachium rosenbergii.

Q4 Neuroscience Invertebrate Neuroscience Pub Date : 2018-03-20 DOI:10.1007/s10158-018-0209-3

Boworn Soonthornsumrith, Jirawat Saetan, Thanapong Kruangkum, Tipsuda Thongbuakaew, Thanyaporn Senarai, Ronnarong Palasoon, Prasert Sobhon, Prapee Sretarugsa

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引用次数: 10

Abstract

The giant freshwater prawn, Macrobrachium rosenbergii, is an economically important crustacean species which has also been extensively used as a model in neuroscience research. The crustacean central nervous system is a highly complex structure, especially the brain. However, little information is available on the brain structure, especially the three-dimensional organization. In this study, we demonstrated the three-dimensional structure and histology of the brain of M. rosenbergii together with the distribution of serotonin (5-HT) in the brain and ovary as well as its effects on ovarian steroidogenesis. The brain of M. rosenbergii consists of three parts: protocerebrum, deutocerebrum and tritocerebrum. Histologically, protocerebrum comprises of neuronal clusters 6-8 and prominent anterior and posterior medial protocerebral neuropils (AMPN/PMPN). The protocerebrum is connected posteriorly to the deutocerebrum which consists of neuronal clusters 9-13, medial antenna I neuropil, a paired lateral antenna I neuropils and olfactory neuropils (ON). Tritocerebrum comprises of neuronal clusters 14-17 with prominent pairs of antenna II (AnN), tegumentary and columnar neuropils (CN). All neuronal clusters are paired structures except numbers 7, 13 and 17 which are single clusters located at the median zone. These neuronal clusters and neuropils are clearly shown in three-dimensional structure of the brain. 5-HT immunoreactivity (-ir) was mostly detected in the medium-sized neurons and neuronal fibers of clusters 6/7, 8, 9, 10 and 14/15 and in many neuropils of the brain including anterior/posterior medial protocerebral neuropils (AMPN/PMPN), protocerebral tract, protocerebral bridge, central body, olfactory neuropil (ON), antennal II neuropil (Ann) and columnar neuropil (CN). In the ovary, the 5-HT-ir was light in the oocyte step 1(Oc₁) and very intense in Oc₂-Oc₄. Using an in vitro assay of an explant of mature ovary, it was shown that 5-HT was able to enhance ovarian estradiol-17β (E₂) and progesterone (P₄) secretions. We suggest that 5-HT is specifically localized in specific brain areas and ovary of this prawn and it plays a pivotal role in ovarian maturation via the induction of female sex steroid secretions, in turn these steroids may enhance vitellogenesis resulting in oocyte growth and maturation.

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罗氏沼虾(Macrobrachium rosenbergii)脑的三维组织、脑和卵巢中血清素的分布及其对卵巢类固醇生成的影响

罗氏沼虾(Macrobrachium rosenbergii)是一种经济上重要的甲壳类动物，也被广泛用作神经科学研究的模型。甲壳类动物的中枢神经系统是一个高度复杂的结构，尤其是大脑。然而，关于大脑结构的信息很少，尤其是三维组织。在本研究中，我们展示了罗氏m.r obergii脑的三维结构和组织学，以及5-羟色胺(5-HT)在脑和卵巢中的分布及其对卵巢类固醇生成的影响。罗氏m.r onbergii的大脑由三个部分组成:原脑、中脑和三脑。在组织学上，原大脑由6-8神经元簇和突出的前、后内侧原大脑神经丸(AMPN/PMPN)组成。前脑与后脑相连，后脑由神经元簇9-13、内侧天线I神经粒、一对外侧天线I神经粒和嗅觉神经粒(ON)组成。三脑由14-17个神经元簇组成，其中天线II (AnN)对突出，被状和柱状神经粒(CN)。除了数字7、13和17是位于中间区域的单个神经元簇外，所有神经元簇都是成对结构。这些神经元簇和神经粒在大脑的三维结构中清晰地显示出来。5-HT免疫反应性(-ir)主要在6/7、8、9、10和14/15簇的中型神经元和神经元纤维中检测到，并在大脑的许多神经瘤中检测到，包括前/后内侧原脑神经瘤(AMPN/PMPN)、原脑束、原脑桥、中枢体、嗅神经瘤(ON)、触角神经瘤(Ann)和柱状神经瘤(CN)。在卵巢中，5-HT-ir在卵母细胞第1阶段(Oc1)较轻，在Oc2-Oc4阶段非常强烈。体外成熟卵巢实验表明，5-HT能够促进卵巢雌二醇-17β (E2)和孕酮(P4)的分泌。我们认为5-HT特异性定位于该对虾的特定脑区和卵巢，并通过诱导雌性性类固醇分泌在卵巢成熟中起关键作用，反过来，这些类固醇可能促进卵黄形成，导致卵母细胞生长和成熟。

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Invertebrate Neuroscience NEUROSCIENCES-

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>12 weeks

期刊介绍： Invertebrate Neurosciences publishes peer-reviewed original articles, reviews and technical reports describing recent advances in the field of invertebrate neuroscience. The journal reports on research that exploits the simplicity and experimental tractability of the invertebrate preparations to underpin fundamental advances in neuroscience. Articles published in Invertebrate Neurosciences serve to highlight properties of signalling in the invertebrate nervous system that may be exploited in the field of antiparisitics, molluscicides and insecticides. Aspects of particular interest include: Functional analysis of the invertebrate nervous system; Molecular neuropharmacology and toxicology; Neurogenetics and genomics; Functional anatomy; Neurodevelopment; Neuronal networks; Molecular and cellular mechanisms of behavior and behavioural plasticity.