Neuroinflammation and neuromodulation in neurological diseases

Neuroimmunology is a relatively young science. This discipline has emerged today from the research field as a mature and fully developed innovative research area that integrates not only pure topics of neuroimmunology, but also expands on wider fields such as neuroplasticity, neuronal reserve and neuromodulation in association with clinical events, amongst which behavioral disorders stand out. The Cuban School of Neuroimmunology—a recent meeting that took place in Havana, Cuba—focused on topics based on the molecular mechanisms of neuroinflammation in neurological disorders involving behavioral manifestations, such as multiple sclerosis (MS), autism, cerebellar ataxias, Alzheimer´s disease and stroke among others, as well as on the use of new interventional technologies in neurology. Professor Luis Velazquez, from the Cuban Academy of Sciences, dictated an interesting lecture on Spinocerebellar ataxias, a genetic disorder where recent hypotheses related to the influence of neuroinflammation as a neurobiological factor influencing the progression of this disease have emerged. At the same time, the use of new interventional technologies in neurology was discussed, including those referring to novel disease modifying therapies in the course of MS and the use of transcranial magnetic stimulation in several neurological diseases, the latter reinforcing how interventional strategies in the form of non-invasive bran stimulation can contribute to physical rehabilitation in neurology. This paper summarizes the highlights of the most relevant topics presented during the First Cuban School of Neuroimmunology, organized by the Cuban Network of Neuroimmunology, held in June 2019

Biomarkers of Oxidative Stress in Huntington's Disease and Other Neurological Disorders: a Comparative Study

Foundation: biomarkers of oxidative stress in Huntington's disease could predict the course of the disease and evaluate new treatments, but their nonspecific nature seems to prevent the identification of any useful marker. Clarifying similarities and differences of this phenomenon and its behavior with clinical characteristics may be essential. Objective: compare biomarkers of oxidative stress between patients with Huntington's disease and other neurological disorders. Methods: an analytical, retrospective and case-control study was carried out (Huntington's disease, amyotrophic lateral sclerosis, spinocerebellar ataxia type 2 and ischemic stroke: acute and chronic stage). Demographic and clinical variables and markers of oxidative damage (malonildialdehyde, advanced protein oxidation products) and antioxidants (superoxide dismutase: catalase: glutathione peroxidase, plasma antioxidant capacity) were collected. Results: there were significant differences in malonyldialdehyde in Huntington's disease compared to the control (p=0.02), but not with the rest of the groups. The enzyme superoxide dismutase in Huntington's disease was statistically lower compared to amyotrophic lateral sclerosis, although for catalase it was higher in relation to the rest of the patients. FRAP in Huntington's disease was significantly lower versus amyotrophic lateral sclerosis and acute ischemic stroke. Advanced products of protein oxidation were directly correlated with the biological and onset ages of Huntington's disease. Motor activity in amyotrophic lateral sclerosis and neurological deficit in acute ischemic stroke were correlated with malonyldialdehyde and glutathione peroxidase, respectively. Conclusions: huntington's disease seems to show specific characteristics in its antioxidant system. Protein oxidation could be related to the accumulation of mutated huntingtin over time

Treatment with Nasal Neuro-EPO Improves the Neurological, Cognitive, and Histological State in a Gerbil Model of Focal Ischemia

Vascular illness of the brain constitutes the third cause of death and the first cause of disability in Cuba and many other countries. Presently, no medication has been registered as a neuroprotector. Neuroprotection with intranasal Neuro-EPO (EPO, erythropoietin) has emerged as a multifunctional therapy that plays a significant role in neural survival and functional recovery in an animal model of stroke. On the other hand, there is limited access to the brain through the blood brain barrier (BBB) for intravenously applied EPO, and the high EPO dosages needed to obtain a protective effect increase the danger of elevated hematocrit levels and practically exclude chronic or subchronic treatment with EPO. A promising approach has been recently developed with a nonerythropoietic variant of EPO, Neuro-EPO, with low sialic acid content, a very short plasma half-life, and without erythropoietic activity, probably similar to endogenous brain EPO. The objective of this work was to determine the neuroprotective effect of intranasal Neuro-EPO in comparison with the human recombinant EPO injected intraperitoneally in the acute phase of cerebral ischemia, employing the common carotid artery occlusion model in gerbils. Neuro-EPO has demonstrated a better neuroprotective effect, evidenced through increased viability, improvements of the neurological state and cognitive functions, as well as protection of the CA3 region of the hippocampus, temporal cortex, and the thalamus. In conclusion, the intranasal application of Neuro-EPO has a better neuroprotective effect than intraperitoneal EPO, evidenced by the significant improvement of neurological, cognitive, and histological status in the animal model of stroke employed

Relevance of gastrointestinal manifestations in a large Spanish cohort of patients with systemic lupus erythematosus: what do we know?

SLE can affect any part of the gastrointestinal (GI) tract. GI symptoms are reported to occur in >50% of SLE patients. To describe the GI manifestations of SLE in the RELESSER (Registry of SLE Patients of the Spanish Society of Rheumatology) cohort and to determine whether these are associated with a more severe disease, damage accrual and a worse prognosis. METHODS: We conducted a nationwide, retrospective, multicentre, cross-sectional cohort study of 3658 SLE patients who fulfil =4 ACR-97 criteria. Data on demographics, disease characteristics, activity (SLEDAI-2K or BILAG), damage (SLICC/ACR/DI) and therapies were collected. Demographic and clinical characteristics were compared between lupus patients with and without GI damage to establish whether GI damage is associated with a more severe disease. RESULTS: From 3654 lupus patients, 3.7% developed GI damage. Patients in this group (group 1) were older, they had longer disease duration, and were more likely to have vasculitis, renal disease and serositis than patients without GI damage (group 2). Hospitalizations and mortality were significantly higher in group 1. Patients in group 1 had higher modified SDI (SLICC Damage Index). The presence of oral ulcers reduced the risk of developing damage in 33% of patients. CONCLUSION: Having GI damage is associated with a worse prognosis. Patients on a high dose of glucocorticoids are at higher risk of developing GI damage which reinforces the strategy of minimizing glucocorticoids. Oral ulcers appear to decrease the risk of GI damage. © The Author(s) 2021. Published by Oxford University Press on behalf of the British Society for Rheumatology

Errores innatos del metabolismo: Enfermedades lisosomales

Dentro de los errores innatos del metabolismo se encuentran las enfermedades de almacenamiento lisosomal o enzimopatías lisosomales, las cuáles se caracterizan por un déficit enzimático específico, la excreción de metabolitos por la orina y la acumulación de los compuestos no degradados en diferentes órganos y tejidos que ocasionan la disfución de éstos. Tienen un patrón de herencia autosómico recesivo, excepto para la enfermedad de Fabry y la enfermedad de Hunter en las que el patrón de herencia está ligado al cromosoma X. Estas enfermedades tienen una baja incidencia en general, aunque hay poblaciones donde algunas de ellas tienen una alta incidencia. Su importancia radica en la magnitud que representan como problema de salud, por la pobre calidad de vida de esos pacientes, así como su fallecimiento prematuro, motivo por el cual hay que evitar los nacimientos de nuevos niños afectados.<br>Among the metabolism inborn errors, there are the lysosomal storage diseases or lysosomal enzymopathies that are characterized by an specific enzymatic deficiency, excretion of metabollites in urine and accumulation of non-degraded compounds in various organs and tissues causing their dysfunction. These diseases have a recessive autosomal heredity, except for Fabry´s disease and Hunter’s disease in which the pattern of heredity is chromosome X-linked. These diseases have a low incidence in general although there are populations where they show a high incidence. Their importance lies in what they represent as a health problem because of the poor quality of life of these patients and their early death, therefore, it is necessary to prevent the birth of new infants affected with these diseases

Diagnosis of GM-1 gangliodosis in Cuba

<strong>Background:</strong> GM-1 gangliosidosis is included in the group of lysosomal diseases and is characterized by a deficiency of the enzyme b-galactosidase, which as a consequence produces accumulation of GM1 ganglioside in nervous cells and galactosil oligosaccharides and products of keratan sulfate degradation in other tissues. Clinically this disease presents with an early psychomotor impairment, macular cherry red spots, facial dysmorphia, bone deformities and hepatosplenomegaly. It has a hereditary autosomic-recessive pattern. <strong>Objective:</strong> To determine of β-galactosidase acid activity in patients with suspicion of GM-1 gangliosidosis. <strong>Methods:</strong> From 1986 to 2006, 1851 patients have been received in our laboratory from all the country, of which 851 had the diagnostic impression of GM-1 gangliosidosis. In samples from patients, parents and controls, the activity of leukocyte b-galactosidase was determined by a fluorimetric technique (metilumbelliferil derivatives) and leukocyte protein level was determined according to Lowry’s method. <strong>Results and conclusions:</strong> The diagnosis of GM-1 gangliosidosis was attained in 11 patients, and the enzymatic activity was three times lower in patients with respect to their parents and five times lower with respect to controls. The enzymatic activity was not related with gender or age. <strong><br /></strong