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GIT1 缺陷导致皮层分层改变的小头畸形的定量神经影像学研究。

Microcephaly with altered cortical layering in GIT1 deficiency revealed by quantitative neuroimaging.

机构信息

Department of Radiology, Duke University Medical Center, Durham, NC 27710, United States of America; Department of Neurology, Duke University Medical Center, Durham, NC 27710, United States of America; Departments of Biomedical Engineering, Duke University Medical Center, Durham, NC 27710, United States of America; Brain Imaging and Analysis Center, Duke University Medical Center, Durham, NC 27710, United States of America.

Department of Medicine, Duke University Medical Center, Durham, NC 27710, United States of America.

出版信息

Magn Reson Imaging. 2021 Feb;76:26-38. doi: 10.1016/j.mri.2020.09.023. Epub 2020 Sep 30.

DOI:10.1016/j.mri.2020.09.023
PMID:33010377
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7802083/
Abstract

G Protein-Coupled Receptor Kinase-Interacting Protein-1 (GIT1) regulates neuronal functions, including cell and axon migration and synapse formation and maintenance, and GIT1 knockout (KO) mice exhibit learning and memory deficits. We noted that male and female GIT1-KO mice exhibit neuroimaging phenotypes including microcephaly, and altered cortical layering, with a decrease in neuron density in cortical layer V. Micro-CT and magnetic resonance microscopy (MRM) were used to identify morphometric phenotypes for the skulls and throughout the GIT1-KO brains. High field MRM of actively-stained mouse brains from GIT1-KO and wild type (WT) controls (n = 6 per group) allowed segmenting 37 regions, based on co-registration to the Waxholm Space atlas. Overall brain size in GIT1-KO mice was 32% smaller compared to WT controls. After correcting for brain size, several regions were significantly different in GIT1-KO mice relative to WT, including the gray matter of the ventral thalamic nuclei and the rest of the thalamus, the inferior colliculus, and pontine nuclei. GIT1-KO mice had reduced volume of white matter tracts, most notably in the anterior commissure (26% smaller), but also in the cerebral peduncle, fornix, and spinal trigeminal tract. On the other hand, the basal ganglia appeared enlarged in GIT1-KO mice, including the globus pallidus, caudate putamen, and particularly the accumbens - supporting a possible vulnerability to addiction. Volume based morphometry based on high-resolution MRM (21.5 μm isotropic voxels) was effective in detecting overall, and local differences in brain volumes in GIT1-KO mice, including in white matter tracts. The reduced relative volume of specific brain regions suggests a critical, but not uniform, role for GIT1 in brain development, conducive to brain microcephaly, and aberrant connectivity.

摘要

G 蛋白偶联受体激酶相互作用蛋白-1(GIT1)调节神经元功能,包括细胞和轴突迁移以及突触形成和维持,GIT1 敲除(KO)小鼠表现出学习和记忆缺陷。我们注意到,雄性和雌性 GIT1-KO 小鼠表现出神经影像学表型,包括小头症和皮质分层改变,皮质 V 层的神经元密度降低。使用微计算机断层扫描(micro-CT)和磁共振显微镜(MRM)来识别 GIT1-KO 大脑颅骨和整个大脑的形态表型。对来自 GIT1-KO 和野生型(WT)对照的主动染色的小鼠大脑进行高场 MRM(每组 n = 6),允许根据与 Waxholm 空间图谱的配准对 37 个区域进行分割。与 WT 对照相比,GIT1-KO 小鼠的大脑总体大小约小 32%。在纠正大脑大小后,与 WT 相比,GIT1-KO 小鼠的几个区域明显不同,包括腹侧丘脑核的灰质和其余丘脑、下丘和脑桥核。GIT1-KO 小鼠的白质束体积减少,尤其是在前连合(小 26%),但也在大脑脚、穹窿和三叉神经脊髓束中。另一方面,GIT1-KO 小鼠的基底神经节似乎增大,包括苍白球、尾状核和特别是伏隔核 - 支持对成瘾的易感性。基于高分辨率 MRM(21.5μm 各向同性体素)的基于体积的形态计量学有效地检测到 GIT1-KO 小鼠大脑体积的整体和局部差异,包括白质束。特定脑区相对体积的减少表明 GIT1 在大脑发育中具有关键但非均匀的作用,有利于大脑小头症和异常连接。