Rohwedel_1998_Exp.Cell.Res_239_214

Reference

Title : Formation of postsynaptic-like membranes during differentiation of embryonic stem cells in vitro - Rohwedel_1998_Exp.Cell.Res_239_214
Author(s) : Rohwedel J , Kleppisch T , Pich U , Guan K , Jin S , Zuschratter W , Hopf C , Hoch W , Hescheler J , Witzemann V , Wobus AM
Ref : Experimental Cell Research , 239 :214 , 1998
Abstract :

To analyze the formation of neuromuscular junctions, mouse pluripotent embryonic stem (ES) cells were differentiated via embryoid bodies into skeletal muscle and neuronal cells. The developmentally controlled expression of skeletal muscle-specific genes coding for myf5, myogenin, myoD and myf6, alpha 1 subunit of the L-type calcium channel, cell adhesion molecule M-cadherin, and neuron-specific genes encoding the 68-, 160-, and 200-kDa neurofilament proteins, synaptic vesicle protein synaptophysin, brain-specific proteoglycan neurocan, and microtubule-associated protein tau was demonstrated by RT-PCR analysis. In addition, genes specifically expressed at neuromuscular junctions, the gamma- and epsilon-subunits of the nicotinic acetylcholine receptor (AChR) and the extracellular matrix protein S-laminin, were found. At the terminal differentiation stage characterized by the formation of multinucleated spontaneously contracting myotubes, the myogenic regulatory gene myf6 and the AChR epsilon-subunit gene, both specifically expressed in mature adult skeletal muscle, were found to be coexpressed. Only the terminally differentiated myotubes showed a clustering of nicotinic acetylcholine receptors (AChR) and a colocalization with agrin and synaptophysin. The formation of AChRs was also demonstrated on a functional level by using the patch clamp technique. Taken together, our results showed that during ES cell differentiation in vitro neuron- and muscle-specific genes are expressed in a developmentally controlled manner, resulting in the formation of postsynaptic-like membranes. Thus, the embryonic stem cell differentiation model will be helpful for studying cellular interactions at neuromuscular junctions by "loss of function" analysis in vitro.

PubMedSearch : Rohwedel_1998_Exp.Cell.Res_239_214
PubMedID: 9521839

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Citations formats

Rohwedel J, Kleppisch T, Pich U, Guan K, Jin S, Zuschratter W, Hopf C, Hoch W, Hescheler J, Witzemann V, Wobus AM (1998)
Formation of postsynaptic-like membranes during differentiation of embryonic stem cells in vitro
Experimental Cell Research 239 :214

Rohwedel J, Kleppisch T, Pich U, Guan K, Jin S, Zuschratter W, Hopf C, Hoch W, Hescheler J, Witzemann V, Wobus AM (1998)
Experimental Cell Research 239 :214