Novel multifunctional nanoliposomes inhibit a-synuclein fibrillization, attenuate microglial activation, and silence the expression of SNCA gene / Nuevos nanoliposomas multifuncionales inhiben la fibrilización de la a-sinucleína, atenúan la activación de la microglía y silencian la expresión de SNCA

Introduction: The aim of this study was to compare the effect of five types of PEGlated nanoliposomes (PNLs) on α-synuclein (α-syn) fibrillization, attenuation of microglial activation, and silence of the SNCA gene, which encodes α-syn. Methods: To evaluate the inhibition of α-syn fibrillization, we used standard in vitro assay based on Thioflavin T (ThT) fluorescence. Next, to evaluate the attenuation of microglial activation, the concentration of TNF-a and IL-6 was quantified by ELISA assay in BV2 microglia cells treated with 100 nM A53T α-syn and PNLs. In order to determine the silencing of the SNCA, real-time PCR and Western blot analysis was used. Finally, the efficacy of PNLs was confirmed in a transgenic mouse model expressing human α-syn.Results: ThT assay showed both PNL1 and PNL2 significantly inhibited a-syn fibrillization. ELISA test also showed the production of TNF-a and IL-6 was significantly attenuated when microglial cells treated with PNL1 or PNL2. We also found that SNCA gene, at both mRNA and protein levels, was significantly silenced when BV2 microglia cells were treated with PNL1 or PNL2. Importantly, the efficacy of PNL1 and PNL2 was finally confirmed in vivo in a transgenic mouse model. Conclusions: In conclusion, the novel multifunctional nanoliposomes tested in our study inhibit α-syn fibrillization, attenuate microglial activation, and silence SNCA gene. Our findings suggest the therapeutic potential of PNL1 and PNL2 for treating synucleinopathies.(AU)

Introducción: El objetivo de este estudio fue comparar el efecto de cinco tipos de nanoliposomas PEGlados (PNL) sobre la fibrilización de la α-sinucleína (α-syn), la atenuación de la activación microglial y el silencio del gen synuclein alpha (SNCA), que codifica α-syn. Métodos: Para evaluar la inhibición de la fibrilización α-syn, utilizamos un ensayo in vitro estándar basado en la fluorescencia de la tioflavina T (ThT). A continuación, para evaluar la atenuación de la activación microglial, se cuantificó la concentración de factor de necrosis tumoral alpha (TNF-a) e interleucina 6 (IL-6)mediante ensayo ELISA en células de microglía BV2 tratadas con 100 nM de α-syn de A53T y PNL. Para determinar el silenciamiento del SNCA, se utilizó reacción en cadena de la polimerasa (PCR) en tiempo real y análisis de Western blot. Finalmente, la eficacia de las PNL se confirmó en un modelo de ratón transgénico que expresa α-syn humana. Resultados: El ensayo ThT mostró que tanto PNL1 como PNL2 inhibieron significativamente la fibrilización de α-syn. La prueba enzyme-linked immunosorbent assay (ELISA) también mostró que la producción de TNF-a e IL-6 se atenuó significativamente cuando las células microgliales se trataron con PNL1 o PNL2. También encontramos que el gen SNCA, tanto a nivel de ARN mensajero (ARNm) como de proteína, se silenciaba significativamente cuando las células de microglía BV2 se trataban con PNL1 o PNL2. Es importante destacar que la eficacia de PNL1 y PNL2 finalmente se confirmó in vivo en un modelo de ratón transgénico.Conclusiones: Los nuevos nanoliposomas multifuncionales probados en nuestro estudio inhiben la fibrilización α-syn, atenúan la activación microglial y silencian el gen SNCA. Nuestros hallazgos sugieren el potencial terapéutico de PNL1 y PNL2 para el tratamiento de sinucleinopatías.(AU)

Novel multifunctional nanoliposomes inhibit α-synuclein fibrillization, attenuate microglial activation, and silence the expression of SNCA gene.

INTRODUCTION: The aim of this study was to compare the effect of five types of PEGlated nanoliposomes (PNLs) on α-synuclein (α-syn) fibrillization, attenuation of microglial activation, and silence of the SNCA gene, which encodes α-syn. METHODS: To evaluate the inhibition of α-syn fibrillization, we used standard in vitro assay based on Thioflavin T (ThT) fluorescence. Next, to evaluate the attenuation of microglial activation, the concentration of TNF-a and IL-6 was quantified by ELISA assay in BV2 microglia cells treated with 100nM A53T α-syn and PNLs. In order to determine the silencing of the SNCA, real-time PCR and Western blot analysis was used. Finally, the efficacy of PNLs was confirmed in a transgenic mouse model expressing human α-syn. RESULTS: ThT assay showed both PNL1 and PNL2 significantly inhibited a-syn fibrillization. ELISA test also showed the production of TNF-a and IL-6 was significantly attenuated when microglial cells treated with PNL1 or PNL2. We also found that SNCA gene, at both mRNA and protein levels, was significantly silenced when BV2 microglia cells were treated with PNL1 or PNL2. Importantly, the efficacy of PNL1 and PNL2 was finally confirmed in vivo in a transgenic mouse model. CONCLUSIONS: In conclusion, the novel multifunctional nanoliposomes tested in our study inhibit α-syn fibrillization, attenuate microglial activation, and silence SNCA gene. Our findings suggest the therapeutic potential of PNL1 and PNL2 for treating synucleinopathies.

The miRNA neuroinflammatory biomarkers in COVID-19 patients with different severity of illness / Los biomarcadores neuroinflamatorios miARN en pacientes con COVID-19 con diferente gravedad de la enfermedad

Introduction: The expression of specific miRNAs and their mRNA targets are changed in infec-tious disease. The aim of this study was to analyze the expression of pro-neuroinflammatorymiRNAs, anti-neuroinflammatory miRNAs, and their mRNA targets in the serum of COVID-19patients with different grades. Methods: COVID-19 patients with different grades were enrolled in this study and the expres-sion of pro-neuroinflammatory miRNAs, anti-neuroinflammatory miRNAs, and their targetmRNAs was analyzed by q-PCR. Results: The relative expression of anti- neuroinflammatory miRNAs (mir-21, mir-124, and mir-146a) was decreased and the relative expression of their target mRNAs (IL-12p53, Stat3, andTRAF6) was increased. Also, the relative expression of pro-neuroinflammatory miRNAs (mir-326, mir-155, and mir-27b) was increased and the relative expression of their target mRNA(PPARS, SOCS1, and CEBPA) was decreased in COVID-19 patients with increase of disease grade.A negative significant correlation was seen between mir-21 and IL-12p53 mRNA, mir-124 andStat3 mRNA, mir-146a and TRAF6 mRNA, mir-27b and PPARS mRNA, mir-155 and SOCS1 mRNA,and between mir-326 and CEBPA mRNA in COVID-19 patients (P < 0.05). Conclusions: This study showed that the relative expression of anti- neuroinflammatory miRNAswas decreased and the relative expression of their targeted mRNAs was increased in COVID-19 patients from asymptomatic to critical illness. Also, this study showed that the relativeexpression of pro-neuroinflammatory miRNAs was increased and the relative expression of theirtargeted mRNA was decreased in COVID-19 patients from asymptomatic to critical illness.(AU)

Introducción: La expresión de miARN específicos y sus dianas de ARNm se modifican en lasenfermedades infecciosas. El objetivo de este estudio fue analizar la expresión de miARN pro-neuroinflamatorios, miARN anti-neuroinflamatorios y sus ARNm dianas en el suero de pacientescon COVID-19 de diferentes grados. Métodos: Se incluyeron en este estudio pacientes con COVID-19 de diferentes grados y seanalizó la expresión de miARN pro-neuroinflamatorios, miARN anti-neuroinflamatorios y susARNm diana mediante q-PCR. Resultados: La expresión relativa de miARN anti-neuroinflamatorios (mir-21, mir-124 y mir-146a) disminuyó y la expresión relativa de sus ARNm diana (IL-12p53, Stat3 y TRAF6) aumentó.Además, la expresión relativa de miARN pro-neuroinflamatorios (mir-326, mir-155 y mir-27b)aumentó y la expresión relativa de su ARNm diana (PPARS, SOCS1 y CEBPA) disminuyó enpacientes con COVID-19 con aumento del grado de enfermedad. Se observó una correlaciónnegativa significativa entre ARNm de mir-21 e IL-12p53, ARNm de mir-124 y Stat3, ARNm demir-146a y TRAF6, ARNm de mir-27b y PPARS, ARNm de mir-155 y SOCS1, y entre mir-326 yARNm de CEBPA en pacientes con COVID-19 (p < 0,05). Conclusiones: Este estudio mostró que la expresión relativa de miARN anti-neuroinflamatoriosdisminuyó y la expresión relativa de sus ARNm diana se incrementó en pacientes con COVID-19de enfermedad asintomática a crítica. Además, este estudio mostró que la expresión relativade miARN pro-neuroinflamatorios aumentó y la expresión relativa de su ARNm diana disminuyóen pacientes con COVID-19 de enfermedad asintomática a crítica.(AU)

The miRNA neuroinflammatory biomarkers in COVID-19 patients with different severity of illness.

INTRODUCTION: The expression of specific miRNAs and their mRNA targets are changed in infectious disease. The aim of this study was to analyze the expression of pro-neuroinflammatory miRNAs, anti-neuroinflammatory miRNAs, and their mRNA targets in the serum of COVID-19 patients with different grades. METHODS: COVID-19 patients with different grades were enrolled in this study and the expression of pro-neuroinflammatory miRNAs, anti-neuroinflammatory miRNAs, and their target mRNAs was analyzed by q-PCR. RESULTS: The relative expression of anti- neuroinflammatory miRNAs (mir-21, mir-124, and mir-146a) was decreased and the relative expression of their target mRNAs (IL-12p53, Stat3, and TRAF6) was increased. Also, the relative expression of pro-neuroinflammatory miRNAs (mir-326, mir-155, and mir-27b) was increased and the relative expression of their target mRNA (PPARS, SOCS1, and CEBPA) was decreased in COVID-19 patients with increase of disease grade. A negative significant correlation was seen between mir-21 and IL-12p53 mRNA, mir-124 and Stat3 mRNA, mir-146a and TRAF6 mRNA, mir-27b and PPARS mRNA, mir-155 and SOCS1 mRNA, and between mir-326 and CEBPA mRNA in COVID-19 patients (P<0.05). CONCLUSIONS: This study showed that the relative expression of anti- neuroinflammatory miRNAs was decreased and the relative expression of their targeted mRNAs was increased in COVID-19 patients from asymptomatic to critical illness. Also, this study showed that the relative expression of pro-neuroinflammatory miRNAs was increased and the relative expression of their targeted mRNA was decreased in COVID-19 patients from asymptomatic to critical illness.

The miRNA neuroinflammatory biomarkers in COVID-19 patients with different severity of illness.

Introduction: The expression of specific miRNAs and their mRNA targets are changed in infectious disease. The aim of this study was to analyze the expression of pro-neuroinflammatory miRNAs, anti-neuroinflammatory miRNAs, and their mRNA targets in the serum of COVID-19 patients with different grades. Methods: COVID-19 patients with different grades were enrolled in this study and the expression of pro-neuroinflammatory miRNAs, anti-neuroinflammatory miRNAs, and their target mRNAs was analyzed by q-PCR. Results: The relative expression of anti- neuroinflammatory miRNAs (mir-21, mir-124, and mir-146a) was decreased and the relative expression of their target mRNAs (IL-12p53, Stat3, and TRAF6) was increased. Also, the relative expression of pro-neuroinflammatory miRNAs (mir-326, mir-155, and mir-27b) was increased and the relative expression of their target mRNA (PPARS, SOCS1, and CEBPA) was decreased in COVID-19 patients with increase of disease grade. A negative significant correlation was seen between mir-21 and IL-12p53 mRNA, mir-124 and Stat3 mRNA, mir-146a and TRAF6 mRNA, mir-27b and PPARS mRNA, mir-155 and SOCS1 mRNA, and between mir-326 and CEBPA mRNA in COVID-19 patients (P < 0.05). Conclusions: This study showed that the relative expression of anti- neuroinflammatory miRNAs was decreased and the relative expression of their targeted mRNAs was increased in COVID-19 patients from asymptomatic to critical illness. Also, this study showed that the relative expression of pro-neuroinflammatory miRNAs was increased and the relative expression of their targeted mRNA was decreased in COVID-19 patients from asymptomatic to critical illness.

Introducción: La expresión de miARN específicos y sus dianas de ARNm se modifican en las enfermedades infecciosas. El objetivo de este estudio fue analizar la expresión de miARN pro-neuroinflamatorios, miARN anti-neuroinflamatorios y sus ARNm dianas en el suero de pacientes con COVID-19 de diferentes grados. Métodos: Se incluyeron en este estudio pacientes con COVID-19 de diferentes grados y se analizó la expresión de miARN pro-neuroinflamatorios, miARN anti-neuroinflamatorios y sus ARNm diana mediante q-PCR. Resultados: La expresión relativa de miARN anti-neuroinflamatorios (mir-21, mir-124 y mir-146a) disminuyó y la expresión relativa de sus ARNm diana (IL-12p53, Stat3 y TRAF6) aumentó. Además, la expresión relativa de miARN pro-neuroinflamatorios (mir-326, mir-155 y mir-27b) aumentó y la expresión relativa de su ARNm diana (PPARS, SOCS1 y CEBPA) disminuyó en pacientes con COVID-19 con aumento del grado de enfermedad. Se observó una correlación negativa significativa entre ARNm de mir-21 e IL-12p53, ARNm de mir-124 y Stat3, ARNm de mir-146a y TRAF6, ARNm de mir-27b y PPARS, ARNm de mir-155 y SOCS1, y entre mir-326 y ARNm de CEBPA en pacientes con COVID-19 (p < 0,05). Conclusiones: Este estudio mostró que la expresión relativa de miARN anti-neuroinflamatorios disminuyó y la expresión relativa de sus ARNm diana se incrementó en pacientes con COVID-19 de enfermedad asintomática a crítica. Además, este estudio mostró que la expresión relativa de miARN pro-neuroinflamatorios aumentó y la expresión relativa de su ARNm diana disminuyó en pacientes con COVID-19 de enfermedad asintomática a crítica.