Camila de Ávila, Anna Gugula, Aleksandra Trenk, Anthony J Intorcia, Crystal Suazo, Jennifer Nolz, Julie Plamondon, Divyanshi Khatri, Lauren Tallant, Alexandre Caron, Anna Blasiak, Geidy E Serrano, Thomas G Beach, Andrew L Gundlach, Diego F Mastroeni
{"title":"揭示人脑中的新型记忆中心:神经化学鉴定与压力和神经病理学有关的关键脑桥部位--incertus 核。","authors":"Camila de Ávila, Anna Gugula, Aleksandra Trenk, Anthony J Intorcia, Crystal Suazo, Jennifer Nolz, Julie Plamondon, Divyanshi Khatri, Lauren Tallant, Alexandre Caron, Anna Blasiak, Geidy E Serrano, Thomas G Beach, Andrew L Gundlach, Diego F Mastroeni","doi":"10.1186/s40659-024-00523-z","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>The nucleus incertus (NI) was originally described by Streeter in 1903, as a midline region in the floor of the fourth ventricle of the human brain with an 'unknown' function. More than a century later, the neuroanatomy of the NI has been described in lower vertebrates, but not in humans. Therefore, we examined the neurochemical anatomy of the human NI using markers, including the neuropeptide, relaxin-3 (RLN3), and began to explore the distribution of the NI-related RLN3 innervation of the hippocampus.</p><p><strong>Methods: </strong>Histochemical staining of serial, coronal sections of control human postmortem pons was conducted to reveal the presence of the NI by detection of immunoreactivity (IR) for the neuronal markers, microtubule-associated protein-2 (MAP2), glutamic acid dehydrogenase (GAD)-65/67 and corticotrophin-releasing hormone receptor 1 (CRHR1), and RLN3, which is highly expressed in NI neurons in diverse species. RLN3 and vesicular GABA transporter 1 (vGAT1) mRNA were detected by fluorescent in situ hybridization. Pons sections containing the NI from an AD case were immunostained for phosphorylated-tau, to explore potential relevance to neurodegenerative diseases. Lastly, sections of the human hippocampus were stained to detect RLN3-IR and somatostatin (SST)-IR.</p><p><strong>Results: </strong>In the dorsal, anterior-medial region of the human pons, neurons containing RLN3- and MAP2-IR, and RLN3/vGAT1 mRNA-positive neurons were observed in an anatomical pattern consistent with that of the NI in other species. GAD65/67- and CRHR1-immunopositive neurons were also detected within this area. Furthermore, RLN3- and AT8-IR were co-localized within NI neurons of an AD subject. Lastly, RLN3-IR was detected in neurons within the CA1, CA2, CA3 and DG areas of the hippocampus, in the absence of RLN3 mRNA. In the DG, RLN3- and SST-IR were co-localized in a small population of neurons.</p><p><strong>Conclusions: </strong>Aspects of the anatomy of the human NI are shared across species, including a population of stress-responsive, RLN3-expressing neurons and a RLN3 innervation of the hippocampus. Accumulation of phosphorylated-tau in the NI suggests its possible involvement in AD pathology. Further characterization of the neurochemistry of the human NI will increase our understanding of its functional role in health and disease.</p>","PeriodicalId":9084,"journal":{"name":"Biological Research","volume":null,"pages":null},"PeriodicalIF":4.3000,"publicationDate":"2024-07-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11253401/pdf/","citationCount":"0","resultStr":"{\"title\":\"Unveiling a novel memory center in human brain: neurochemical identification of the nucleus incertus, a key pontine locus implicated in stress and neuropathology.\",\"authors\":\"Camila de Ávila, Anna Gugula, Aleksandra Trenk, Anthony J Intorcia, Crystal Suazo, Jennifer Nolz, Julie Plamondon, Divyanshi Khatri, Lauren Tallant, Alexandre Caron, Anna Blasiak, Geidy E Serrano, Thomas G Beach, Andrew L Gundlach, Diego F Mastroeni\",\"doi\":\"10.1186/s40659-024-00523-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>The nucleus incertus (NI) was originally described by Streeter in 1903, as a midline region in the floor of the fourth ventricle of the human brain with an 'unknown' function. 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Pons sections containing the NI from an AD case were immunostained for phosphorylated-tau, to explore potential relevance to neurodegenerative diseases. Lastly, sections of the human hippocampus were stained to detect RLN3-IR and somatostatin (SST)-IR.</p><p><strong>Results: </strong>In the dorsal, anterior-medial region of the human pons, neurons containing RLN3- and MAP2-IR, and RLN3/vGAT1 mRNA-positive neurons were observed in an anatomical pattern consistent with that of the NI in other species. GAD65/67- and CRHR1-immunopositive neurons were also detected within this area. Furthermore, RLN3- and AT8-IR were co-localized within NI neurons of an AD subject. Lastly, RLN3-IR was detected in neurons within the CA1, CA2, CA3 and DG areas of the hippocampus, in the absence of RLN3 mRNA. 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引用次数: 0
摘要
背景:无脑核(NI)最初由 Streeter 于 1903 年描述,是人脑第四脑室底部的一个中线区域,其功能 "未知"。一个多世纪后,NI 的神经解剖学在低等脊椎动物中得到了描述,但在人类中却没有。因此,我们使用包括神经肽松弛素-3(RLN3)在内的标记物研究了人类 NI 的神经化学解剖,并开始探索与 NI 相关的 RLN3 神经支配在海马中的分布。方法:通过检测神经元标记物微管相关蛋白-2(MAP2)、谷氨酸脱氢酶(GAD)-65/67、促肾上腺皮质激素释放激素受体 1(CRHR1)和 RLN3 的免疫反应性(IR)来揭示 NI 的存在。荧光原位杂交法检测了 RLN3 和囊泡 GABA 转运体 1 (vGAT1) mRNA。免疫染色法检测磷酸化-tau,以探索与神经退行性疾病的潜在相关性。最后,对人类海马的切片进行染色,以检测RLN3-IR和体生长抑素(SST)-IR:结果:在人类脑桥的背侧、前内侧区域,观察到含有RLN3-IR和MAP2-IR的神经元,以及RLN3/vGAT1 mRNA阳性神经元,其解剖模式与其他物种的NI一致。在这一区域还检测到了 GAD65/67- 和 CRHR1- 免疫阳性神经元。此外,RLN3- 和 AT8-IR 在一名 AD 受试者的 NI 神经元内共定位。最后,在海马CA1、CA2、CA3和DG区域的神经元中检测到了RLN3-IR,但没有RLN3 mRNA。在DG区,RLN3-和SST-IR共同定位在一小部分神经元中:结论:人类 NI 的解剖结构在物种间具有共通性,其中包括应激反应型 RLN3 表达神经元群和海马的 RLN3 神经支配。NI中磷酸化-tau的积累表明它可能与AD病理有关。对人类 NI 神经化学特性的进一步研究将加深我们对其在健康和疾病中的功能作用的了解。
Unveiling a novel memory center in human brain: neurochemical identification of the nucleus incertus, a key pontine locus implicated in stress and neuropathology.
Background: The nucleus incertus (NI) was originally described by Streeter in 1903, as a midline region in the floor of the fourth ventricle of the human brain with an 'unknown' function. More than a century later, the neuroanatomy of the NI has been described in lower vertebrates, but not in humans. Therefore, we examined the neurochemical anatomy of the human NI using markers, including the neuropeptide, relaxin-3 (RLN3), and began to explore the distribution of the NI-related RLN3 innervation of the hippocampus.
Methods: Histochemical staining of serial, coronal sections of control human postmortem pons was conducted to reveal the presence of the NI by detection of immunoreactivity (IR) for the neuronal markers, microtubule-associated protein-2 (MAP2), glutamic acid dehydrogenase (GAD)-65/67 and corticotrophin-releasing hormone receptor 1 (CRHR1), and RLN3, which is highly expressed in NI neurons in diverse species. RLN3 and vesicular GABA transporter 1 (vGAT1) mRNA were detected by fluorescent in situ hybridization. Pons sections containing the NI from an AD case were immunostained for phosphorylated-tau, to explore potential relevance to neurodegenerative diseases. Lastly, sections of the human hippocampus were stained to detect RLN3-IR and somatostatin (SST)-IR.
Results: In the dorsal, anterior-medial region of the human pons, neurons containing RLN3- and MAP2-IR, and RLN3/vGAT1 mRNA-positive neurons were observed in an anatomical pattern consistent with that of the NI in other species. GAD65/67- and CRHR1-immunopositive neurons were also detected within this area. Furthermore, RLN3- and AT8-IR were co-localized within NI neurons of an AD subject. Lastly, RLN3-IR was detected in neurons within the CA1, CA2, CA3 and DG areas of the hippocampus, in the absence of RLN3 mRNA. In the DG, RLN3- and SST-IR were co-localized in a small population of neurons.
Conclusions: Aspects of the anatomy of the human NI are shared across species, including a population of stress-responsive, RLN3-expressing neurons and a RLN3 innervation of the hippocampus. Accumulation of phosphorylated-tau in the NI suggests its possible involvement in AD pathology. Further characterization of the neurochemistry of the human NI will increase our understanding of its functional role in health and disease.
期刊介绍:
Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.