MAB2053 Sigma-AldrichAnti-Disialoganglioside GD3 Antibody, clone MB3.6

Breast cancer is the most common form of cancer among women. Compared with other serum polypeptides, autoantibodies have many appealing features as biomarkers including sensitivity, stability, and easy detection. Anti-lipid autoantibodies are routinely used in the diagnosis of autoimmune diseases, but their potential for cancer diagnosis has not been explored. Dysregulation of cellular signaling in cancer cells would be expected to lead to irregular metabolism of many lipids, which could be sensed by the immune system and cause the production of autoantibodies. Discovery of anti-lipid antibodies could be used as biomarkers for early breast cancer diagnosis. We describe here a more sensitive and accurate method for lipid microarray detection using dual fluorescent labeling, and used it to examine global anti-lipid profiles in the MMTV-Neu transgenic breast cancer model. We conclude that, at the current technology, lipid microarray is not a preferred method for anti-lipid antibody detection in breast cancer animal models. Our result will help the future application of lipid microarrays in identifying anti-lipid autoantibodies in breast cancer and other human diseases.

Monoclonal antibodies (MAbs) 126 (immunoglobulin M) and 14.18 (immunoglobulin G3) react strongly with the cell surface of small cell carcinoma of the lungs (SCCL) and are unreactive with most normal tissues and other neoplasms with the notable exception of tumors derived from cells of neural crest origin. These MAbs react specifically with the oligosaccharide portion of the disialoganglioside GD2. Analysis of total gangliosides from cultured cell lines derived from SCCL indicates that GD2 is a predominant ganglioside. A comparison of the reactivities of MAbs against GD2 with those directed against gangliosides GM2 and GD3, each differing from GD2 by a single sugar residue, clearly indicates that GD2 is preferentially expressed by cultured cells derived from SCCL. Membranes isolated from these cells exhibit GD2 synthetase activity which specifically converts the precursor GD3 to GD2 in the presence of uridine diphosphate-N-acetyl galactosamine as the glycosyl donor. We present evidence that in SCCL, GD2 serves as a relevant target antigen for monoclonal antibody-mediated cytolysis. Specifically, we demonstrate that MAb 14.18 (immunoglobulin G3), can lyse small cell carcinoma of the lung targets by either complement- or antibody-dependent cellular cytotoxicity.