Myelin basic proteins charge isomers interact differently with the peptidyl arginine deiminase-2.

The deamination of arginine and its conversion to citrulline is a modification observed in positively charged proteins such as histones or myelin basic protein (MBP). This reaction is catalyzed by peptidyl arginine deiminase (PAD), whose abnormal activation is associated with autoimmune diseases like rheumatoid arthritis and multiple sclerosis. However, the mechanisms that trigger PAD activation and the pathophysiological processes involved in hypercitrullination remain unknown. In this study, we investigated the interaction between PAD and various charged isomers of MBP, each differing in the degree of post-translational modification. Immunoprecipitation experiments were conducted to examine the binding between PAD and the different charge isomers of MBP. Our findings revealed that the phosphorylated forms of MBP (C3 and C4) exhibited a higher affinity for PAD compared to the unmodified (C1) and fully citrullinated forms (C8). Additionally, we observed that only in the presence of the unmodified C1 isomer did PAD undergo autocitrullination, which was inhibited by the endogenous guanidine-containing component, creatine. In the presence of other isomers, PAD did not undergo autocitrullination. Furthermore, we found that the unmodified isomer of MBP-C1 contains methylated arginines, which were not affected by the pre-treatment with PAD. Based on our findings, we propose that the increased phosphorylation of central threonines in the original MBP may trigger PAD activation, leading to increased citrullination of the protein and subsequent disorganization of the myelin sheath. These insights contribute to a better understanding of the underlying mechanisms in autoimmune diseases associated with hypercitrullination, potentially opening new avenues for therapeutic interventions.

Citrullinated isomer of myelin basic protein can induce inflammatory responses in astrocytes.

Purpose: During the course of demyelinating inflammatory diseases, myelin-derived proteins, including myelin basic protein(MBP), are secreted into extracellular space. MBP shows extensive post-translational modifications, including deimination/citrullination. Deiminated MBP is structurally less ordered, susceptible to proteolytic attack, and more immunogenic than unmodified MBP. This study investigated the effect of the deiminated/citrullinated isomer of MBP(C8) and the unmodified isomer of MBP(C1) on cultured primary astrocytes. Methods: MBP charge isomers were isolated/purified from bovine brain. Primary astrocyte cultures were prepared from the 2-day-old Wistar rats. For evaluation of glutamate release/uptake a Fluorimetric glutamate assay was used. Expression of peroxisome proliferator-activated receptor-gamma(PPAR-γ), excitatory amino acid transporter 2(EAAT2), the inhibitor of the nuclear factor kappa-B(ikB) and high mobility group-B1(HMGB1) protein were assayed by Western blot analysis. IL-17A expression was determined in cell medium by ELISA. Results: We found that MBP(C8) and MBP(C1) acted differently on the uptake/release of glutamate in astrocytes: C1 increased glutamate uptake and did not change its release, whereas C8 decreased glutamate release but did not change its uptake. Both isomers increased the expression of PPAR-γ and EAAT2 to the same degree. Western blots of cell lysates revealed decreased expression of ikB and increased expression of HMGB1 proteins after treatment of astrocytes by C8. Moreover, C8-treated cells released more nitric oxide and proinflammatory IL-17A than C1-treated cells. Conclusions: These data suggest that the most immunogenic deiminated isomer C8, in parallel to the decreases in glutamate release, elicits an inflammatory response and enhances the secretion of proinflammatory molecules via activation of nuclear factor kappa B(NF-kB). Summary statement: The most modified-citrullinated myelin basic protein charge isomer decreases glutamate release, elicits an inflammatory response and enhances the secretion of proinflammatory molecules via activation of nuclear factor kappa B in astrocytes.

Myelin basic protein charge isomers change macrophage polarization.

PURPOSE: During a neuronal injury, a variety of immune cells infiltrate into the local microenvironment at the demyelination site. After the destruction of the intact myelin sheath, its major constituent myelin basic protein (MBP) dissociates from the plasma membrane and acts as a free ligand on the infiltrated immune cells. MBP exhibits charge microheterogeneity as a result of post-translational modifications, but the effect of various isomers of MBP on the activity of macrophages is not known. MATERIALS AND METHODS: MBP was isolated and purified from bovine brain white matter. RAW 264.7 macrophages were cultured in DMEM supplemented with heat-inactivated fetal bovine serum. For evaluation of macrophage polarization following treatment of RAW 264.7 cells with MBP charge isomers, inducible nitric oxide synthase (iNOS) expression (M1 phenotype marker) and arginase-1 expression (M2 phenotype marker) were determined in cell lysates by ELISA. To assess Rac activity, G-LISA Rac Activation Assay system was used. The expression of receptor for advanced glycation end-products (RAGE) and high mobility group box 1 (HMGB1) protein were assayed by Western blot analysis. RESULTS: Our results have shown that minimally modified C1 component of MBP increases the expression of arginase-1 in cells, decreases the expression of iNOS, does not change the secretion of HMGB1 protein, but significantly elevates surface expression of RAGE, and in parallel, increases the activity of small GTPase Rac. On the other hand, highly modified deiminated isomer C8-MBP increases the secretion of HMGB1 protein but does not change the expression of arginase-1 or the content of RAGE. CONCLUSION: These data indicate that deiminated C8 isomer of MBP tends to polarize RAW macrophages into M1 phenotypes, whereas C1 enhances the activity of M2 phenotype markers.