Xenogeneic Neu5Gc and self-glycan Neu5Ac epitopes are potential immune targets in MS

A systematic review reveals conflicting evidence for the prevalence of antibodies against the sialic acid 'xenoautoantigen' Neu5Gc in humans and the need for a standardised approach to quantification

Despite an array of hypothesised implications for health, disease, and therapeutic development, antibodies against the non-human sialic acid N-glycolylneuraminic acid (Neu5Gc) remain a subject of much debate. This systematic review of 114 publications aimed to generate a comprehensive overview of published studies in this field, addressing both the reported prevalence of anti-Neu5Gc antibodies in the human population and whether experimental variation accounts for the conflicting reports about the extent of this response. Absolute titres of anti-Neu5Gc antibodies, the reported prevalence of these antibodies, and the individual variation observed within experiments were analysed and grouped according to biological context ('inflammation', 'xenotransplantation', 'biotherapeutic use', 'cancer', and 'healthy populations'), detection method, target epitope selection, and choice of blocking agent. These analyses revealed that the experimental method had a notable impact on both the reported prevalence and absolute titres of anti-Neu5Gc antibodies in the general population, thereby limiting the ability to ascribe reported trends to genuine biological differences or the consequence of experimental design. Overall, this review highlights important knowledge gaps in the study of antibodies against this important xenoautoantigen and the need to establish a standardised method for their quantification if the extent of the importance of Neu5Gc in human health is to be fully understood.

Advanced glycation end-products as potential triggering factors of self-reactivity against myelin antigens in Multiple Sclerosis

Multiple Sclerosis (MS) is a demyelinating autoimmune disease in which autoreactive T lymphocytes infiltrate the central nervous system (CNS) and react against antigens derived from proteins of the myelin sheath. The reason why T lymphocytes recognize certain myelin antigens as exogenous, activating the autoimmune response, remains unknown and represents the key to understand the pathogenesis of MS. Neurons are characterized by an elevated glycolytic metabolism. Methylglyoxal (MG) is a highly reactive α-oxoaldehyde spontaneously formed as a by-product of glycolysis, and it reacts with proteins, nucleotides and phospholipids forming stable adducts called advanced glycation end-products (AGEs). Several studies demonstrate that MG-derived AGEs accumulate in the plasma and brain of MS patients. Furthermore, there are evidences that post-myelinated oligodendrocytes, the myelin-forming glial cells, increase their glycolytic metabolism to maintain their survival and functions, likely explaining the progressive accumulation of MG in MS lesions. The hypothesis proposed here is that the MG-derived AGEs, accumulated on the proteins composing the myelin sheath, are responsible for the altered antigen presentation process, mimicking exogenous antigens and triggering the autoimmune response. If this hypothesis will be experimentally confirmed a new pathogenic mechanism of MS will be identified.

Anti α1-3Gal antibodies and Gal content in gut microbiota in immune disorders and multiple sclerosis

Recent observations suggest that Gal antigen content in gut microbiota and anti-Gal antibody response may influence inflammation in immune related disorders. In this review we summarized the current knowledge on antibody response to the Gal epitope in various immune disorders. We discuss the origin of Gal antigen associated to gut microbiota. In multiple sclerosis, the possible mechanisms by which the altered microbiota and/or circulating anti-Gal level could affect the immune response in this disease are presented.

CIDP Antibodies Target Junction Proteins and Identify Patient Subgroups: An Autoantigenomic Approach

OBJECTIVE

To discover systemic characteristics in the repertoires of targeted autoantigens in chronic inflammatory demyelinating polyneuropathy (CIDP), we detected the entire autoantigen repertoire of patients and controls and analyzed them systematically.

METHODS

We screened 43 human serum samples, of which 22 were from patients with CIDP, 12 from patients with other neuropathies, and 9 from healthy controls via HuProt Human Proteome microarrays testing about 16,000 distinct human bait proteins. Autoantigen repertoires were analyzed via bioinformatical autoantigenomic approaches: principal component analysis, analysis of the repertoire sizes in disease groups and clinical subgroups, and overrepresentation analyses using Gene Ontology and PantherDB.

RESULTS

The autoantigen repertoires enabled the identification of a subgroup of 10/22 patients with CIDP with a younger age at onset and a higher frequency of mixed motor and sensory CIDP. IV immunoglobulin therapy responders targeted 3 times more autoantigens than nonresponders. No CIDP-specific autoantibody is present in all patients; however, anchoring junction components were significantly targeted by 86.4% of patients with CIDP. There are potential novel CIDP-specific autoantigens such as the myelination- or axo-glial structure-related proteins actin-related protein 2/3 complex subunit 1B, band 4.1-like protein 2, cadherin-15, cytohesin-1, epidermal growth factor receptor, ezrin, and radixin.

CONCLUSIONS

The repertoire of targeted autoantigens of patients with CIDP differs in a systematic degree from those of controls. Systematic autoantigenomic approaches can help to understand the disease and to discover novel bioinformatical tools and novel autoantigen panels to improve diagnosis, treatment, prognosis, or patient stratification.