Anti-inflammatory mechanisms and pharmacological actions of phycocyanobilin in a mouse model of experimental autoimmune encephalomyelitis: A therapeutic promise for multiple sclerosis.

Cytokines, demyelination and neuroaxonal degeneration in the central nervous system are pivotal elements implicated in the pathogenesis of multiple sclerosis (MS) and its nonclinical model of experimental autoimmune encephalomyelitis (EAE). Phycocyanobilin (PCB), a chromophore of the biliprotein C-Phycocyanin (C-PC) from Spirulina platensis, has antioxidant, immunoregulatory and anti-inflammatory effects in this disease, and it could complement the effect of other Disease Modifying Treatments (DMT), such as Interferon-ß (IFN-ß). Here, our main goal was to evaluate the potential PCB benefits and its mechanisms of action to counteract the chronic EAE in mice. MOG35-55-induced EAE was implemented in C57BL/6 female mice. Clinical signs, pro-inflammatory cytokines levels by ELISA, qPCR in the brain and immunohistochemistry using precursor/mature oligodendrocytes cells antibodies in the spinal cord, were assessed. PCB enhanced the neurological condition, and waned the brain concentrations of IL-17A and IL-6, pro-inflammatory cytokines, in a dose-dependent manner. A down- or up-regulating activity of PCB at 1 mg/kg was identified in the brain on three (LINGO1, NOTCH1, and TNF-α), and five genes (MAL, CXCL12, MOG, OLIG1, and NKX2-2), respectively. Interestingly, a reduction of demyelination, active microglia/macrophages density, and axonal damage was detected along with an increase in oligodendrocyte precursor cells and mature oligodendrocytes, when assessed the spinal cords of EAE mice that took up PCB. The studies in vitro in rodent encephalitogenic T cells and in vivo in the EAE mouse model with the PCB/IFN-ß combination, showed an enhanced positive effect of this combined therapy. Overall, these results demonstrate the anti-inflammatory activity and the protective properties of PCB on the myelin and support its use with IFN-ß as an improved DMT combination for MS.

Sensory stimulation in acute stroke therapy.

The beneficial effects of cortical activation for functional recovery after ischemic stroke have been well described. However, little is known about the role of early sensory stimulation, i.e. stimulation during first 6 h after stroke onset even during acute treatment. In recent years, various preclinical studies reported significant effects of acute sensory stimulation that range from entire neuroprotection to increased infarct volumes by 30-50%. Systematic knowledge about the effect of acute sensory stimulation on stroke outcome is highly relevant as stroke patients are subject to uncontrolled sensory stimulation during transport, acute treatment, and critical care. This article discusses the current stage of knowledge about acute sensory stimulation and provides directions for future experimental and clinical trials.

Beneficial effects of oral administration of C-Phycocyanin and Phycocyanobilin in rodent models of experimental autoimmune encephalomyelitis.

The only three oral treatments currently available for multiple sclerosis (MS) target the relapsing forms of the disease and concerns regarding efficacy, safety and tolerability limit their use. Identifying novel oral disease-modifying therapies for MS, targeting both its inflammatory and neurodegenerative components is still a major goal. AIM: The scope of this study was to provide evidence that the oral administration of C-Phycocyanin (C-PC), the main biliprotein of the Spirulina platensis cyanobacteria and its tetrapyrrolic prosthetic group, Phycocyanobilin (PCB), exert ameliorating actions on rodent models of experimental autoimmune encephalomyelitis (EAE). MAIN METHODS: EAE was induced in Lewis rats using the spinal cord encephalitogen from Sprague Dawley rats and in C57BL6 mice with MOG35-55 peptide. Clinical signs, motor function, oxidative stress markers, cytokine levels by ELISA and transmission electron microscopy analysis were assessed. KEY FINDINGS: Either prophylactic or early therapeutic administration of C-PC to Lewis rats with EAE, significantly improved clinical signs and restored the motor function of the animals. Furthermore, C-PC positively modulated oxidative stress markers measured in brain homogenate and serum and protected the integrity of cerebral myelin sheaths as shown by transmission electron microscopy analysis. In C57BL/6 mice with EAE, PCB orally improved clinical status of the animals and reduced the expression levels of brain IL-6 and IFN-γ proinflammatory cytokines. SIGNIFICANCE: These results, for the first time, support the fact that both C-PC and PCB administered orally could potentially improve neuroinflammation, protect from demyelination and axonal loss, which may be translated into an improved quality of life for MS patients.

Differential contribution of immune effector mechanisms to cortical demyelination in multiple sclerosis.

Cortical demyelination is a widely recognized hallmark of multiple sclerosis (MS) and correlate of disease progression and cognitive decline. The pathomechanisms initiating and driving gray matter damage are only incompletely understood. Here, we determined the infiltrating leukocyte subpopulations in 26 cortical demyelinated lesions of biopsied MS patients and assessed their contribution to cortical lesion formation in a newly developed mouse model. We find that conformation-specific anti-myelin antibodies contribute to cortical demyelination even in the absence of the classical complement pathway. T cells and natural killer cells are relevant for intracortical type 2 but dispensable for subpial type 3 lesions, whereas CCR2+ monocytes are required for both. Depleting CCR2+ monocytes in marmoset monkeys with experimental autoimmune encephalomyelitis using a novel humanized CCR2 targeting antibody translates into significantly less cortical demyelination and disease severity. We conclude that biologics depleting CCR2+ monocytes might be attractive candidates for preventing cortical lesion formation and ameliorating disease progression in MS.

Comparative Neuroregenerative Effects of C-Phycocyanin and IFN-Beta in a Model of Multiple Sclerosis in Mice.

Multiple Sclerosis (MS) therapies approved so far are unable to effectively reverse the chronic phase of the disease or improve the remyelination process. Here our aim is to evaluate the effects of C-Phycocyanin (C-Pc), a biliprotein from Spirulina platensis with anti-oxidant, anti-inflammatory and cytoprotective properties, in a chronic model of experimental autoimmune encephalomyelitis (EAE) in mice. C-Pc (2, 4 or 8 mg/kg i.p.) or IFN-beta (2000 IU, s.c.) was administered daily once a day or every other day, respectively, starting at disease onset, which differ among EAE mice between 11 and 15 days postinduction. Histological and immunohistochemistry (anti-Mac-3, anti-CD3 and anti-APP) assessments were performed in spinal cord in the postinduction time. Global gene expression in the brain was analyzed with the Illumina Mouse WG-6_V2 BeadChip microarray and the expression of particular genes, assessed by qPCR using the Fast SYBR Green RT-PCR Master Mix. Oxidative stress parameters (malondialdehyde, peroxidation potential, CAT/SOD ratio and GSH) were determined spectrophoto-metrically. Results showed that C-Pc ameliorates the clinical deterioration of animals, an effect that expresses the reduction of the inflammatory infiltrates invading the spinal cord tissue, the axonal preservation and the down-regulation of IL-17 expression in brain tissue and serum. C-Pc and IFN-beta improved the redox status in mice subjected to EAE, while microarray analysis showed that both treatments shared a common subset of differentially expressed genes, although they also differentially modulated another subset of genes. Specifically, C-Pc mainly modulated the expression of genes related to remyelination, gliogenesis and axon-glia processes. Taken together, our results indicate that C-Pc has significant therapeutic effects against EAE, mediated by the dynamic regulation of multiple biological processes.

C-Phycocyanin is neuroprotective against global cerebral ischemia/reperfusion injury in gerbils.

Although the huge economic and social impact and the predicted incidence increase, neuroprotection for ischemic stroke remains as a therapeutically empty niche. In the present study, we investigated the rationale of the C-Phycocyanin (C-PC) treatment on global cerebral ischemia/reperfusion (I/R) injury in gerbils. We demonstrated that C-PC given either prophylactically or therapeutically was able to significantly reduce the infarct volume as assessed by triphenyltetrazolium chloride (TTC) staining and the neurological deficit score 24h post-stroke. In addition, C-PC exhibited a protective effect against hippocampus neuronal cell death, and significantly improved the functional outcome (locomotor behavior) and gerbil survival after 7 days of reperfusion. Malondialdehyde (MDA), peroxidation potential (PP) and ferric reducing ability of plasma (FRAP) were assayed in serum and brain homogenates to evaluate the redox status 24h post-stroke. The treatment with C-PC prevented the lipid peroxidation and the increase of FRAP in both tissue compartments. These results suggest that the protective effects of C-PC are most likely due to its antioxidant activity, although its anti-inflammatory and immuno-modulatory properties reported elsewhere could also contribute to neuroprotection. To our knowledge, this is the first report of the neuroprotective effect of C-PC in an experimental model of global cerebral I/R damage, and strongly indicates that C-PC may represent a potential preventive and acute disease modifying pharmacological agent for stroke therapy.

C-Phycocyanin ameliorates experimental autoimmune encephalomyelitis and induces regulatory T cells.

For decades Experimental Autoimmune Encephalitis (EAE) has remained as an unsurpassed multiple sclerosis (MS) animal model. C-Phycocyanin (C-Pc) has been reported to exhibit pharmacological properties that may be expected to symptomatically improve EAE and MS. However, in this paper we reveal a basic underlying mechanism that may provide a new approach to the rationale of the overall beneficial effect of this natural antioxidant. We demonstrate that C-Pc is able to trigger mechanisms preventing or downgrading EAE expression and induces a regulatory T cell (Treg) response, in peripheral blood mononuclear cells (PBMC) from MS patients. These results agree with reports suggesting that Treg limit acute MS attacks and that C-Pc may act as a neuroprotector and thereby reverts the organic and functional damage in neurodegenerative disorders of the central nervous system (CNS). Moreover, evidence is provided on the antioxidant activity of C-Pc within the CNS, intended to improve the myelin and axonal damage of EAE induced Lewis rats. Our results indicate that specific Treg activation may represent a central and essential mechanism in supporting the therapeutic potential of C-Pc for MS and may lead to new and more effective therapies; this property would then complement and enhance other proven active principles such as interferons (IFN), giving rise to combined therapies.

Esclerosis múltiple: aspectos generales y abordaje farmacológico / Multiple sclerosis: general features and pharmacologic approach

La esclerosis múltiple es una enfermedad autoinmune, inflamatoria y desmielinizante del sistema nervioso central, de etiología desconocida y evolución crónica. Existen diferentes hipótesis etiológicas que hablan de una estrecha interrelación entre factores genéticos predisponentes y factores ambientales disímiles, capaces de desencadenar la respuesta autoinmune a nivel del sistema nervioso central. La hipótesis de la patogenia autoinmune se basa en estudios en modelos experimentales y hallazgos en biopsias de pacientes afectados por la enfermedad. Datos acumulativos reportan que el estrés oxidativo desempe±a una función fundamental en la patogénesis de la esclerosis múltiple. Las especies reactivas de oxígeno generadas por macrófagos han sido implicadas como mediadoras de la desmielinización y el da±o axonal, tanto en la encefalomielitis autoinmune experimental, como en la esclerosis múltiple propiamente. El diagnóstico de la enfermedad es difícil porque no existe una única prueba confirmatoria. El tratamiento de la esclerosis múltiple abarca el tratamiento de los relapsos agudos y los síntomas, así como la modificación de la enfermedad. Estos aspectos requieren un enfoque individualizado, basado en la evolución de esta afección y la tolerabilidad de los tratamientos. Ademßs de la dieta, entre los tratamientos no farmacológicos para la esclerosis múltiple se recomienda la terapia física. Por otra parte, se han realizado varios ensayos clínicos en los que se han empleado extractos naturales, suplementos nutricionales y otros agentes con resultados alentadores. La farmacología ha dotado a los neurólogos de un amplio arsenal de fßrmacos de probada eficacia; sin embargo, los resultados de los laboratorios de investigación en los últimos a±os hacen muy probable que las posibilidades terapéuticas aumenten considerablemente en el futuro.

Multiple sclerosis is an autoimmune, inflammatory and desmyelinization disease of central nervous system (CNS) of unknown etiology and critical evolution. There are different etiological hypotheses talking of a close interrelation among predisposing genetic factors and dissimilar environmental factors, able to give raise to autoimmune response at central nervous system level. Hypothesis of autoimmune pathogeny is based on study of experimental models, and findings in biopsies of affected patients by disease. Accumulative data report that the oxidative stress plays a main role in pathogenesis of multiple sclerosis. Oxygen reactive species generated by macrophages has been involved as mediators of demyelinization and of axon damage, in experimental autoimmune encephalomyelitis and strictly in multiple sclerosis. Disease diagnosis is difficult because of there is not a confirmatory unique test. Management of it covers the treatment of acute relapses, disease modification, and symptoms management. These features require an individualized approach, base on evolution of this affection, and tolerability of treatments. In addition to diet, among non-pharmacologic treatments for multiple sclerosis it is recommended physical therapy. Besides, some clinical assays have been performed in which we used natural extracts, nutrition supplements, and other agents with promising results. Pharmacology allowed neurologists with a broad array of proved effectiveness drugs; however, results of research laboratories in past years make probable that therapeutical possibilities increase notably in future.

Esclerosis múltiple: aspectos generales y abordaje farmacológico / Multiple sclerosis: general features and pharmacologic approach

La esclerosis múltiple es una enfermedad autoinmune, inflamatoria y desmielinizante del sistema nervioso central, de etiología desconocida y evolución crónica. Existen diferentes hipótesis etiológicas que hablan de una estrecha interrelación entre factores genéticos predisponentes y factores ambientales disímiles, capaces de desencadenar la respuesta autoinmune a nivel del sistema nervioso central. La hipótesis de la patogenia autoinmune se basa en estudios en modelos experimentales y hallazgos en biopsias de pacientes afectados por la enfermedad. Datos acumulativos reportan que el estrés oxidativo desempe±a una función fundamental en la patogénesis de la esclerosis múltiple. Las especies reactivas de oxígeno generadas por macrófagos han sido implicadas como mediadoras de la desmielinización y el da±o axonal, tanto en la encefalomielitis autoinmune experimental, como en la esclerosis múltiple propiamente. El diagnóstico de la enfermedad es difícil porque no existe una única prueba confirmatoria. El tratamiento de la esclerosis múltiple abarca el tratamiento de los relapsos agudos y los síntomas, así como la modificación de la enfermedad. Estos aspectos requieren un enfoque individualizado, basado en la evolución de esta afección y la tolerabilidad de los tratamientos. Ademßs de la dieta, entre los tratamientos no farmacológicos para la esclerosis múltiple se recomienda la terapia física. Por otra parte, se han realizado varios ensayos clínicos en los que se han empleado extractos naturales, suplementos nutricionales y otros agentes con resultados alentadores. La farmacología ha dotado a los neurólogos de un amplio arsenal de fßrmacos de probada eficacia; sin embargo, los resultados de los laboratorios de investigación en los últimos a±os hacen muy probable que las posibilidades terapéuticas aumenten considerablemente en el futuro(AU)

Multiple sclerosis is an autoimmune, inflammatory and desmyelinization disease of central nervous system (CNS) of unknown etiology and critical evolution. There are different etiological hypotheses talking of a close interrelation among predisposing genetic factors and dissimilar environmental factors, able to give raise to autoimmune response at central nervous system level. Hypothesis of autoimmune pathogeny is based on study of experimental models, and findings in biopsies of affected patients by disease. Accumulative data report that the oxidative stress plays a main role in pathogenesis of multiple sclerosis. Oxygen reactive species generated by macrophages has been involved as mediators of demyelinization and of axon damage, in experimental autoimmune encephalomyelitis and strictly in multiple sclerosis. Disease diagnosis is difficult because of there is not a confirmatory unique test. Management of it covers the treatment of acute relapses, disease modification, and symptoms management. These features require an individualized approach, base on evolution of this affection, and tolerability of treatments. In addition to diet, among non-pharmacologic treatments for multiple sclerosis it is recommended physical therapy. Besides, some clinical assays have been performed in which we used natural extracts, nutrition supplements, and other agents with promising results. Pharmacology allowed neurologists with a broad array of proved effectiveness drugs; however, results of research laboratories in past years make probable that therapeutical possibilities increase notably in future(AU)