1. Academic Validation
  2. Identification of regulated genes during permanent focal cerebral ischaemia: characterization of the protein kinase 9b5/MARKL1/MARK4

Identification of regulated genes during permanent focal cerebral ischaemia: characterization of the protein kinase 9b5/MARKL1/MARK4

  • J Neurochem. 2004 Mar;88(5):1114-26. doi: 10.1046/j.1471-4159.2003.02228.x.
Armin Schneider 1 Rico Laage Oliver von Ahsen Achim Fischer Moritz Rossner Sigrid Scheek Sylvia Grünewald Rohini Kuner Daniela Weber Carola Krüger Bettina Klaussner Bernhard Götz Holger Hiemisch Dieter Newrzella Ana Martin-Villalba Alfred Bach Markus Schwaninger
Affiliations

Affiliation

  • 1 Axaron Bioscience AG, Heidelberg, Germany. schneider@axaron.de
Abstract

Cerebral ischaemia induces transcriptional changes in a number of pathophysiologically important genes. Here we have systematically studied gene expression changes after 90 min and 24 h of permanent focal ischaemia in the mouse by an advanced fragment display technique (restriction-mediated differential display). We identified 56 transcriptionally altered genes, many of which provide novel hints to ischaemic pathophysiology. Particularly interesting were two pro-apoptotic genes (Grim19 and Tdag51), whose role in cerebral ischaemia and neuronal cell death has not been recognized so far. Among the unknown sequences, we identified a gene that was rapidly and transiently up-regulated. The encoded protein displayed high homology to the MARK family of serine-threonine protein kinases and has recently been described as MARKL1/MARK4. Here we demonstrate that this protein is a functional protein kinase with the ability to specifically phosphorylate a cognate peptide substrate for the AMP-kinase family. Upon overexpression in heterologous cells, the functional wild-type protein, but not its kinase-dead mutant, led to decreased cell viability. We conclude that the up-regulation of this kinase during focal ischaemia may represent an interesting new target for pharmacological intervention.

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