删除细胞外信号调节激酶2（ERK2）丝裂原活化蛋白激酶可确定其在皮质神经发生和认知功能中的关键作用。

Deletion of ERK2 mitogen-activated protein kinase identifies its key roles in cortical neurogenesis and cognitive function.

作者信息

Samuels Ivy S, Karlo J Colleen, Faruzzi Alicia N, Pickering Kathryn, Herrup Karl, Sweatt J David, Saitta Sulagna C, Landreth Gary E

机构信息

Department of Neurosciences, Case Western Reserve University, Cleveland, Ohio 44106-4928, USA.

出版信息

J Neurosci. 2008 Jul 2;28(27):6983-95. doi: 10.1523/JNEUROSCI.0679-08.2008.

DOI:10.1523/JNEUROSCI.0679-08.2008

PMID:18596172

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4364995/

Abstract

The mitogen-activated protein (MAP) kinases ERK1 and ERK2 are critical intracellular signaling intermediates; however, little is known about their isoform-specific functions in vivo. We have examined the role of ERK2 in neural development by conditional inactivation of the murine mapk1/ERK2 gene in neural progenitor cells of the developing cortex. ERK MAP kinase (MAPK) activity in neural progenitor cells is required for neuronal cell fate determination. Loss of ERK2 resulted in a reduction in cortical thickness attributable to impaired proliferation of neural progenitors during the neurogenic period and the generation of fewer neurons. Mutant neural progenitor cells remained in an undifferentiated state until gliogenic stimuli induced their differentiation, resulting in the generation of more astrocytes. The mutant mice displayed profound deficits in associative learning. Importantly, we have identified patients with a 1 Mb microdeletion on chromosome 22q11.2 encompassing the MAPK1/ERK2 gene. These children, who have reduced ERK2 levels, exhibit microcephaly, impaired cognition, and developmental delay. These findings demonstrate an important role for ERK2 in cellular proliferation and differentiation during neural development as well as in cognition and memory formation.

摘要

丝裂原活化蛋白（MAP）激酶ERK1和ERK2是关键的细胞内信号转导中间体；然而，它们在体内的亚型特异性功能却鲜为人知。我们通过在发育中的皮质神经祖细胞中条件性失活小鼠mapk1/ERK2基因，研究了ERK2在神经发育中的作用。神经祖细胞中的ERK丝裂原活化蛋白激酶（MAPK）活性对于神经元细胞命运的决定是必需的。ERK2的缺失导致皮质厚度减小，这归因于神经源性时期神经祖细胞增殖受损以及产生的神经元数量减少。突变的神经祖细胞一直处于未分化状态，直到胶质细胞生成刺激诱导它们分化，从而产生更多的星形胶质细胞。突变小鼠在联想学习方面表现出严重缺陷。重要的是，我们发现了22q11.2染色体上存在1 Mb微缺失且包含MAPK1/ERK2基因的患者。这些ERK2水平降低的儿童表现出小头畸形、认知受损和发育迟缓。这些发现证明了ERK2在神经发育过程中的细胞增殖和分化以及认知和记忆形成中具有重要作用。

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