Mouse FABP7 peptide

Fatty-acid-binding proteins (FABPs) are key intracellular molecules involved in the uptake, transportation and storage of fatty acids and in the mediation of signal transduction and gene transcription. However, little is known regarding their expression and function in the oligodendrocyte lineage. We evaluate the in vivo and in vitro expression of FABP5 and FABP7 in oligodendrocyte lineage cells in the cortex and corpus callosum of adult mice, mixed cortical culture and oligosphere culture by immunofluorescent counter-staining with major oligodendrocyte lineage markers. In all settings, FABP7 expression was detected in NG2(+)/PDGFR alpha(+) oligodendrocyte progenitor cells (OPCs) that did not express FABP5. FABP5 was detected in mature CC1(+)/MBP+ oligodendrocytes that did not express FABP7. Analysis of cultured OPCs showed a significant decrease in the population of FABP7-knockout (KO) OPCs and their BrdU uptake compared with wild-type (WT) OPCs. Upon incubation of OPCs in oligodendrocyte differentiation medium, a significantly lower percentage of FABP7-KO OPCs differentiated into O4(+) oligodendrocytes. The percentage of mature MBP+ oligodendrocytes relative to whole O4(+)/MBP+ oligodendrocytes was significantly lower in FABP7-KO and FABP5-KO than in WT cell populations. The percentage of terminally mature oligodendrocytes with membrane sheet morphology was significantly lower in FABP5-KO compared with WT cell populations. Thus, FABP7 and FABP5 are differentially expressed in oligodendrocyte lineage cells and regulate their proliferation and/or differentiation. Our findings suggest the involvement of FABP7 and FABP5 in the pathophysiology of demyelinating disorders, neuropsychiatric disorder and glioma, conditions in which OPCs/oligodendrocytes play central roles.

Understanding neurogenesis is valuable for the treatment of nervous system disorders. However, there is currently limited information about the molecular events associated with the transition from primate ES cells to neural cells. We therefore sought to identify the proteins involved in neurogenesis, from Macaca fascicularis ES cells (CMK6 cell line) to neural stem (NS) cells to neurons using two-dimensional gel electrophoresis (2-DE), peptide mass fingerprinting (PMF), and liquid chromatography-tandem mass spectrometry (LC-MS-MS). During the differentiation of highly homogeneous ES cells to NS cells, we identified 17 proteins with increased expression, including fatty acid binding protein 7 (FABP7), collapsin response mediator protein 2 (CRMP2), and cellular retinoic acid binding protein 1 (CRABP1), and seven proteins with decreased expression. In the differentiation of NS cells to neurons, we identified three proteins with increased expression, including CRMP2, and 10 proteins with decreased expression. Of these proteins, FABP7 is a marker of NS cells, CRMP2 is involved in axon guidance, and CRABP1 is thought to regulate retinoic acid access to its nuclear receptors. Western blot analysis confirmed the upregulation of FABP7 and CRABP1 in NS cells, and the upregulation of CRMP2 in NS cells and neurons. RT-PCR results showed that CRMP2 and FABP7 mRNAs were also upregulated in NS cells, while CRABP1 mRNA was unchanged. These results provide insight into the molecular basis of monkey neural differentiation. (C) 2010 Elsevier B.V. All rights reserved.