Evidence for novel cell defense mechanisms sustained by dimethyl fumarate in multiple sclerosis patients: the HuR/SOD2 cascade.

BACKGROUND: Dimethyl fumarate (DMF) is an effective treatment for relapsing remitting Multiple Sclerosis (MS) and its mechanisms of action encompass immunomodulatory and cytoprotective effects. Despite DMF is known to activate the Nrf2 pathway, Nrf2-independent mechanisms have been also reported and new insights on the underlying molecular mechanisms are still emerging including transcriptional and post-transcriptional events. At this regard, we focused on a small family of RNA-binding proteins, the ELAV-like proteins, that play a pivotal role in post-transcriptional mechanisms and are involved in the pathogenesis of several psychiatric and neurologic disorders. HuR, the ubiquitously expressed member of the family, is implicated in many cellular functions, including survival, inflammation and proper functioning of the immune system. We previously documented the potential entanglement of HuR in MS pathogenesis. In the present work, we explored HuR protein levels in peripheral blood mononuclear cells (PBMCs) from MS patients before and after DMF treatment compared to healthy controls (HC). Considering that HuR may act on various targets, playing a protective role against oxidative stress, our main goals were to evaluate whether manganese-dependent superoxide dismutase transcript (SOD2) could represent a new molecular target of HuR and to study the potential influence of DMF treatment on this interaction. METHODS: PBMCs from 20 patients with MS and 20 frequency-matched HC by sex and age were used to evaluate HuR, MnSOD (the protein coded by SOD2) and Nrf2 protein content by Western blot, before and after 12 months of DMF treatment. Immunoprecipitation experiments coupled with RNA extraction in PBMCs were performed to explore whether SOD2 mRNA could be physically bound by HuR and whether the expression of MnSOD protein could be affected by 12 months of DMF treatment. RESULTS: In PBMCs, HuR protein binds SOD2 transcript in HC and in MS patients naïve to disease modifying treatment. The expression of MnSOD protein is positively affected by 12 months of DMF treatment. PBMCs from MS patients have a lower HuR and MnSOD protein content compared to matched HC (HuR: p<0.01, MnSOD: p<0.01). Of interest, 12 months of DMF treatment in MS patients restores the amount of both HuR protein and MnSOD enzyme to the levels observed in HC. We also confirmed that Nrf2 is an HuR target, and we report that its levels are significantly increased in MS patients naïve to disease modifying treatment and remain elevated following DMF administration. CONCLUSION: SOD2 transcript is a new target of HuR protein. DMF induces an increased expression of HuR protein, which ultimately interacts more strongly with SOD2 transcript promoting the expression of this antioxidant protein. The activation of this molecular cascade can constitute an additional tool that the cells can exploit to counteract the oxidative stress associated with MS development, and can account for the multifaceted molecular mechanisms underlying DMF efficacy in MS.

COVID-19 in patients with myasthenia gravis: Epidemiology and disease course.

INTRODUCTION/AIMS: Coronavirus disease 2019 (COVID-19), a disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection, has become a global pandemic. Patients with myasthenia gravis (MG), often treated with immunosuppressants, might be at higher risk of developing COVID-19 and of demonstrating a severe disease course. We aimed to study prevalence and describe features of COVID-19 in MG patients. METHODS: In May 2020, we conducted telephonic interviews with MG patients followed at our referral center. We collected structured data regarding MG and COVID-19, which was diagnosed as probable or confirmed according to the European Centre for Disease Prevention and Control case definition. We compared confirmed-COVID-19 prevalence calculated from the beginning of the pandemic in MG patients with that of the overall Pavia district. RESULTS: We interviewed 162 MG patients (median age, 66 y; interquartile range 41-77; males 59.9%), 88 from the Pavia district. Three patients had SARS-CoV-2-confirmed by polymerase chain reaction and eight had probable-COVID-19. In the Pavia district, the prevalence of confirmed-COVID-19 among MG patients (1/88, 1.14%) and overall population (4777/546 515, 0.87%) did not differ (P = .538). Higher Myasthenia Gravis Foundation of America clinicalclass and the need for recent rescue treatment, but not ongoing immunosuppressive treatments, were associated with COVID-19 risk. Of 11 MG patients with probable/confirmed-COVID-19, 3 required ventilator support, and 2 elderly patients died of COVID-19 respiratory insufficiency. Only 1 of11 patients experienced worsening MG symptoms, which improved after increasing their steroid dose. DISCUSSION: The risk of COVID-19 in MG patients seems to be no higher than that of the general population, regardless of immunosuppressive therapies. In our cohort, COVID-19 barely affected MG course.

Unraveling a new player in multiple sclerosis pathogenesis: The RNA-binding protein HuR.

BACKGROUND: ELAV-like proteins are a small family of RNA-binding proteins that are fundamental players in post-transcriptional mechanisms and are involved in the pathogenesis of neurologic and psychiatric disorders. HuR, the ubiquitously expressed member of the family, is also implicated in sustaining inflammation and inflammatory diseases, supporting the production of pro-inflammatory cytokines. Inflammation plays a central role in Multiple Sclerosis (MS), which represents the most common cause of permanent physical disability in young adults. MS is a chronic autoimmune disease affecting the Central Nervous System, with a complex aetiology involving genetic, environmental and epigenetic factors. No data are available on the potential entanglement of HuR in MS pathogenesis in patients. In the present work, we aimed at exploring HuR protein levels in peripheral blood mononuclear cells (PBMCs) from MS patients, compared to healthy controls. To further elucidate the possible involvement of HuR in MS, we also investigated the relationship between this specific RNA-binding protein and HSP70-2 protein, also considering the HSP70-2 rs1061581 polymorphism, given that HSP70-2 mRNA has been reported as a HuR target and this specific polymorphism to be associated with MS risk. METHODS: Alleles and genotypes for HSP70-2 rs1061581 polymorphism were assessed, by using a Polymerase Chain Reaction-Restriction Fragment Length Polymorphism, followed by digestion with restriction enzyme, in MS patients and healthy controls. PBMCs from a subgroup of patients and controls were used to evaluate HuR and HSP70-2 protein content by Western blot. RESULTS: PBMCs from 52 MS patients had a lower HuR and higher HSP70-2 protein content compared to 43 healthy controls. An increase of 100 units of HuR significantly decreased the risk of developing MS by 9.8% (OR: 0.902, 95% CI: 0.83-0.98), controlling for HSP70-2 protein expression, HSP70-2 rs1061581 genotype, age and sex. Moreover, holding HuR levels, an increase of 100 units of HSP70-2 protein significantly increased the MS risk by 18.1% (OR: 1.181, 95% CI: 1.03-1.36) and the genetic susceptibility of developing MS for HSP70-2 rs1061581 GG carriers is confirmed. Of interest, MS patients with a moderate to severe form of MS (MSSS ≥ 3) showed a trend towards a reduction of HuR protein levels compared to patients with mild disease severity (MSSS < 3). CONCLUSIONS: HuR protein levels are reduced in MS patients compared to healthy subjects, and the protein amount may continue to decline with disease progression, suggesting a putative role of this RNA-binding protein. Moreover, our results suggest that MS pathology may have disrupted the link between HuR and its target transcript HSP70-2. It will be important to further explore the exact role of HuR in MS, considering the complex interplay with other RNA-binding factors and target mRNAs.

Impact of natural menopause on multiple sclerosis: a multicentre study.

OBJECTIVE: To study the effect of natural menopause on multiple sclerosis clinical course. METHODS: This was an observational, retrospective, multicentre, cohort study. Menopause onset was defined by the final menstrual period (FMP) beyond which no menses occurred for 12 months. We included multiple sclerosis (MS) patients with FMP occurred after 2005 and a recorded follow-up of at least 2 years pre-FMP and post-FMP. We excluded patients with primary progressive course, iatrogenic menopause and with other confounders that could mask menopause onset. We compared relapse-rate and expanded disability status scale (EDSS) scores pre-FMP and post-FMP, searching for possible interactions with age, disease duration, cigarette smoking and nulliparity status. RESULTS: 148 patients were included (mean observation: 3.5 years pre-FMP and post-FMP). Most patients (92%) received disease-modifying therapies, mainly first-lines. After menopause the annualised relapse rate (ARR) significantly decreased (from 0.21±0.31 to 0.13± 0.24; p=0.005), while disability worsened (increase of mean 0.4 vs 0.2 points after menopause; p<0.001). Older age and long-lasting disease were associated with ARR reduction (p=0.013), but not with disability worsening. Cigarette smokers showed a trend to a higher disability accumulation after menopause (p=0.059). CONCLUSION: Natural menopause seems to be a turning point to a more progressive phase of MS. Relapse rate is also reduced after menopause, but this effect could be driven most by ageing and shifting to progressive phase in patients with long-lasting disease. Cigarette smoking could speed up disability progression after menopause.

Macrophage-Derived Extracellular Succinate Licenses Neural Stem Cells to Suppress Chronic Neuroinflammation.

Neural stem cell (NSC) transplantation can influence immune responses and suppress inflammation in the CNS. Metabolites, such as succinate, modulate the phenotype and function of immune cells, but whether and how NSCs are also activated by such immunometabolites to control immunoreactivity and inflammatory responses is unclear. Here, we show that transplanted somatic and directly induced NSCs ameliorate chronic CNS inflammation by reducing succinate levels in the cerebrospinal fluid, thereby decreasing mononuclear phagocyte (MP) infiltration and secondary CNS damage. Inflammatory MPs release succinate, which activates succinate receptor 1 (SUCNR1)/GPR91 on NSCs, leading them to secrete prostaglandin E2 and scavenge extracellular succinate with consequential anti-inflammatory effects. Thus, our work reveals an unexpected role for the succinate-SUCNR1 axis in somatic and directly induced NSCs, which controls the response of stem cells to inflammatory metabolic signals released by type 1 MPs in the chronically inflamed brain.