Rohwedel J, Guan K, Zuschratter W, Jin S, Ahnert-Hilger G, Fürst D, Fässler R, Wobus A M
IPK Gatersleben, Gatersleben, D-06466, Germany.
Dev Biol. 1998 Sep 15;201(2):167-84. doi: 10.1006/dbio.1998.9002.
Integrin cell surface receptors play an important role for cell adhesion, migration, and differentiation during embryonic development by mediating cell-cell and cell-matrix interactions. Less is known about the function of integrins during commitment and lineage determination of early embryogenesis. Homozygous inactivation of the beta1 integrin gene results in embryonal death in mice around the time of implantation. In vitro, differentiation of embryonic stem (ES) cells which lack beta1 integrin (beta1-/-) into the cardiogenic lineage is delayed and results in a disordered cellular specification (Fässler et al., J. Cell Sci. 109, 2989-2999, 1996). To analyze beta1 integrin function during myogenesis and neurogenesis we studied differentiation of beta1-/- ES cells via embryoid bodies into skeletal muscle and neuronal cells in vitro. beta1-/- cells showed delayed and reduced myogenic differentiation compared to wildtype and heterozygous (beta1+/-) ES cells. RT-PCR analysis demonstrated delayed expression of skeletal muscle-specific genes in the absence of beta1 integrin. Immunofluorescence studies with antibodies against the sarcomeric proteins myosin heavy chain, titin, nebulin, and slow C-protein showed that myotubes formed, but their number was reduced and the assembly of sarcomeric structures was retarded. In contrast, neuronal cells differentiating from beta1-/- ES cells appeared earlier than wildtype and heterozygous (beta1+/-) ES cells. This was shown by the accelerated expression of neuron-specific genes and an increased number of neuronal cells in beta1-/- embryoid bodies. However, neuronal outgrowth was retarded in the absence of beta1 integrin. No functional difference between wildtype and beta1-/- cells was found with respect to secretion of gamma-aminobutyric acid, the main neurotransmitter of ES cell-derived neuronal cells. The lineage-specific effects of loss of beta1 integrin function, that is the inhibition of mesodermal and acceleration of neuroectodermal differentiation, were supported by differential expression of genes encoding lineage-specific transcription factors (Brachyury, Pax-6, Mash1) and signaling molecules (BMP-4 and Wnt-1). Because of the reduced and delayed expression of the BMP-4 encoding gene in beta1-/- cells, we analyzed in wildtype and beta1-/- cells the regulatory role of exogenously added BMP-4 on the expression of the mesodermal and neuronal marker genes, Brachyury and wnt-1, respectively. The data suggest that BMP-4 plays a regulatory role during differentiation of wildtype and beta1-/- cells by modifying mesodermal and neuronal pathways. The reduced expression of BMP-4 in beta1-/- cells may account for the accelerated neuronal differentiation in beta1-/- ES cells.
整合素细胞表面受体通过介导细胞间和细胞与基质的相互作用,在胚胎发育过程中的细胞黏附、迁移和分化中发挥重要作用。关于整合素在早期胚胎发生的定向分化和谱系确定过程中的功能,人们了解较少。β1整合素基因的纯合失活导致小鼠在着床期左右胚胎死亡。在体外,缺乏β1整合素(β1-/-)的胚胎干细胞(ES细胞)向心脏谱系的分化延迟,并导致细胞特异性紊乱(法斯勒等人,《细胞科学杂志》109卷,2989 - 2999页,1996年)。为了分析β1整合素在肌发生和神经发生过程中的功能,我们研究了β1-/- ES细胞通过胚状体在体外向骨骼肌和神经元细胞的分化。与野生型和杂合(β1+/-)ES细胞相比,β1-/-细胞的肌源性分化延迟且程度降低。逆转录聚合酶链反应(RT-PCR)分析表明,在缺乏β1整合素的情况下,骨骼肌特异性基因的表达延迟。用针对肌节蛋白肌球蛋白重链、肌联蛋白、伴肌动蛋白和慢C蛋白的抗体进行免疫荧光研究表明,肌管形成了,但数量减少,且肌节结构的组装受到阻碍。相反,从β1-/- ES细胞分化而来的神经元细胞比野生型和杂合(β1+/-)ES细胞出现得更早。这通过β1-/-胚状体中神经元特异性基因的加速表达和神经元细胞数量的增加得以证明。然而,在缺乏β1整合素的情况下,神经元的生长受到阻碍。在ES细胞衍生的神经元细胞的主要神经递质γ-氨基丁酸的分泌方面,未发现野生型和β1-/-细胞之间存在功能差异。编码谱系特异性转录因子(短尾型、配对盒蛋白6、神经母细胞特异性碱性螺旋-环-螺旋蛋白1)和信号分子(骨形态发生蛋白4和Wnt-1)的基因的差异表达支持了β1整合素功能丧失的谱系特异性效应,即中胚层分化的抑制和神经外胚层分化的加速。由于β1-/-细胞中编码骨形态发生蛋白4的基因表达减少且延迟,我们分别在野生型和β1-/-细胞中分析了外源性添加的骨形态发生蛋白4对中胚层和神经元标记基因短尾型和Wnt-1表达的调节作用。数据表明,骨形态发生蛋白4通过修饰中胚层和神经元途径,在野生型和β1-/-细胞的分化过程中发挥调节作用。β1-/-细胞中骨形态发生蛋白4表达的降低可能解释了β1-/- ES细胞中神经元分化的加速。
