Immunolocalization and high affinity interactions of acyl-CoAs with proteins: an original study with anti-acyl-CoA antibodies.

Anti-acyl-Coenzyme A (acyl-CoA) antibodies were used to detect fatty acyl-CoAs in cultured rat hippocampal neurons, in which important lipid metabolism and transport occur. Hippocampus was chosen because of his involvement in many cerebral functions and diseases. Immunofluorescence experiments showed an intense labelling within neurites and cell bodies. Labelling seems to be associated with vesicles and membrane domains. We have shown by immunoblot experiments that the labelling corresponded to acyl-CoAs which were in strong interaction with proteins, without being covalently bound to them. Immunoprecipitation experiments, followed by proteomic analysis, showed that anti-acyl-CoA antibodies were also able to immunoprecipitate multiprotein complexes, principally related to vesicle trafficking and/or to membrane rafts.

Immunolocalization of long-chain acyl-CoAs in plant cells.

Long chain acyl-Coenzyme A esters (acyl-CoAs) are key substrates in many enzymic reactions of lipid metabolism. Due to their amphiphilic nature, the membrane localization of these molecules cannot be established by subcellular membrane fractionation and usual biochemical studies. We have developed another approach based on ultrastructural immunogold cytochemistry. To preserve the acyl-CoA membrane content, the plant material was freeze substituted and cryoembedded after short aldehyde fixation followed by quick freezing. Using Arabidopsis thaliana root cells and specific antibodies raised against acyl-CoAs, we show that acyl-CoAs are mainly localized in endoplasmic reticulum membranes. Our results demonstrate the value of cryo-methods for the accurate localization of labile metabolites in plant cells.