Structural, thermodynamic and functional studies of human 71 kDa heat shock cognate protein (HSPA8/hHsc70).

Human 71 kDa heat shock cognate protein (HSPA8, also known as Hsc70, Hsp70-8, Hsc71, Hsp71 or Hsp73) is a constitutively expressed chaperone that is critical for cell proteostasis. In the cytosol, HSPA8 plays a pivotal role in folding and refolding, facilitates protein trafficking across membranes and targets proteins for degradation, among other functions. Here, we report an in solution study of recombinant HSPA8 (rHSPA8) using a variety of biophysical and biochemical approaches. rHSPA8 shares several structural and functional similarities with others human Hsp70s. It has two domains with different stabilities and interacts with adenosine nucleotides with dissociation constants in the low micromolar range, which were higher in the presence of Mg2+. rHSPA8 showed lower ATPase activity than its homolog HSPA5/hGrp78/hBiP, but it was 4-fold greater than that of recombinant HSPA1A/hHsp70-1A, with which it is 86% identical. Small angle X-ray scattering indicated that rHSPA8 behaved as an elongated monomeric protein in solution with dimensions similar to those observed for HSPA1A. In addition, rHSPA8 showed structural flexibility between its compacted and extended conformations. The data also indicated that HSPA8 has capacity in preventing the aggregation of model client proteins. The present study expands the understanding of the structure and activity of this chaperone and aligns with the idea that human homologous Hsp70s have divergent functions.

Decreased rotavirus infection of MA104 cells via probiotic extract binding to Hsc70 and ß3 integrin receptors / Disminución de la infección por rotavirus en células MA104 por la unión de proteínas de extractos probióticos a receptores celulares integrina ß3 y Hsc70 / Diminuição da infecção por rotavírus em células MA104 pela união de proteínas de extratos probióticos a receptores integrina ß3 e Hsc70

Abstract Probiotic bacteria are microorganisms beneficial to human health, useful to improving biological conditions. Thanks to probiotic bacteria the symptoms of viral infections can be alleviated. Different mechanisms whereby probiotic bacteria exert they antiviral effect have been proposed. The aim of this study was to determine whether probiotic bacteria extracts bind to receptors of host cells susceptible of rotavirus (RV) infection. To accomplish this objective, four probiotic bacterial strains of Lactobacillus spp. and Bifidobacterium spp. were tested. Probiotic extracts were obtained after bacterial growth, cell lysis and centrifugation. Obtained probiotic extracts were used in assays to interfere with adhesion and penetration of a RV strain in the mammal cell line MA104. Furthermore, the interaction between probiotic extracts and MA104 cell receptors was evaluated by co-immunoprecipitation assays using anti-β3-integrins and anti-Hsc70 antibodies. All four probiotic, protein-rich, extracts reduced RV infections in MA104 cells, suggesting a successful antiviral activity mediated by these probiotic extracts. All probiotic extracts significantly exerted their antiviral activity by interfering with RV adhesion on MA104 cell receptors, with proteins in probiotic extracts competitively interacting with cell surface receptors necessary to RV infection. Co-immunoprecipitation assay results showed that proteins in probiotic extracts were able to bind to β3-integrinsand Hsc70, which are two cellular receptors required to viral infection. The most significant contribution of this study is an insight into the mechanisms of probiotic antiviral activity, thus expanding current probiotics fundamental knowledge.

Resumen Las bacterias probióticas son microorganismos con efectos positivos en la salud humana, gracias a las bacterias probióticas los síntomas de infecciones virales pueden mitigarse. Al respecto, varios mecanismos antivirales de las bacterias probióticas han sido propuestos. El propósito de este estudio fue determinar, de manera experimental, si extractos de bacterias probióticas reducen la infección rotavírica al interferir con la unión entre el rotavirus y sus receptores celulares blanco. Extractos de cuatro cepas probióticas de Lactobacillus spp. y Bifidobacterium spp. fueron obtenidos a partir de cultivos bacterianos lisados y centrifugados. Cada uno de los extractos fue usado en experimentos para determinar si estos interfieren con la adhesión y penetración del rotavirus en células de mamífero MA104. Además, la interacción entre extractos probióticos y receptores de las células MA104 fue evaluada con ensayos de co-inmunoprecipitación, usando anticuerpos anti-integrina β3 y anti-Hsc70. Se observó que los cuatro extractos probióticos, ricos en proteínas, redujeron significativamente la infección de rotavirus en las células MA104. También se estableció que la que la actividad antiviral de los extractos probióticos es mediada por la interacción competitiva de sus proteínas con los receptores integrina β3 y Hsc70 de las células MA104, necesarios para iniciar la infección por rotavirus. Estos hallazgos constituyen un aporte al conocimiento de los mecanismos básicos de acción antiviral de las bacterias probióticas.

Resumo Bactérias probióticas são microrganismos com efeitos positivos na saúde humana, úteis na melhora de certas condições biológicas. Gracas a bactérias probióticas os sintomas de uma infecção viral podem ser aliviados. Diferentes mecanismos pelos quais as bactérias probióticas exercem seus efeitos antivirales têm sido propostos. O objetivo de este estudo foi determinar se extratos de bactérias probióticas reduzem a infecção de rotavírus (RV) ao interferir com a união entre o RV e seus receptores celulares alvo. Quatro cepas probióticas de Lactobacillus spp. e Bifidobacterium spp. foram testadas. Os extratos probióticos foram obtidos após o crescimento bacteriano, lise celular e centrifugação. Os extratos probióticos obtidos foram utilizados em ensaios para determinar se interferem com a adesão e penetração de uma cepa de RV em células de mamífero MA104. Adicionalmente, a interação entre os extratos probióticos e os receptores das células MA104 foi avaliada por ensaios de co-imunoprecipitação usando anticorpos anti-integrina β3 e anti- Hsc70. Os quatro extratos probióticos, ricos em proteínas, reduziram as infecções por RV em células MA104, sugerindo uma atividade antiviral mediada por estes extratos. Todos os extratos interferiram na adesão do RV aos receptores de células MA104, sendo que as proteínas presentes nos extratos mostraram uma interação competitiva com os receptores integrina β3 e Hsc70 das células MA104, necessários para iniciar a infecção por RV. Estes resultados contribuem para o conhecimento dos mecanismos básicos de ação antiviral de bactérias probióticas.

Protein disulfide isomerase and heat shock cognate protein 70 interactions with rotavirus structural proteins using their purified recombinant versions / Interacciones de las proteínas disulfuro isomerasa y de choque térmico Hsc70 con proteínas estructurales recombinantes purificadas de rotavirus

Introduction. Rotavirus entry into cells seems to be mediated by sequential interactions between viral structural proteins and some cell surface molecules. However, the mechanisms by which rotavirus infects target cell are still not well understood. There is some evidence showing that rotavirus structural proteins VP5* and VP8* interact with some cell surface molecules. The availability of recombinant rotavirus structural proteins in sufficient quantity has become very important for the identification of the specific virus-cell receptor interactions during the early events of the infectious process. Objective. The aim of the present work is to perform an analysis of the interactions between recombinant rotavirus structural proteins VP5*, VP8* and VP6, and cellular proteins Hsc70 and PDI using their purified recombinant versions. Materials and methods. Rotavirus recombinant VP5* and VP8*, and cellular recombinant proteins Hsc70 and PDI were expressed in E. coli BL21(DE3) while VP6 was expressed in recombinant vaccinia virus-transfected MA104 cells. The interaction between rotavirus and cellular proteins was studied using ELISA, co-immunoprecipitation and SDS-PAGE/Western blotting analysis. Results. The optimal conditions for expression of recombinant proteins were determined and antibodies were raised against them. The findings suggested that viral proteins rVP5* and rVP6 interact with Hsc70 and PDI in vitro. These viral recombinant proteins were also found to interact with raft-associated Hsc70 in a cell culture system. The treatment of cells with either rVP6 or DLPs produced significantly inhibition of rotavirus infection. Conclusion. The results allow us to conclude that rVP5* and rVP6 interact with Hsc70 and PDI during the rotavirus infection process.

Introducción. La entrada de rotavirus a las células parece estar mediado por interacciones secuenciales entre las proteínas estructurales virales y algunas moléculas de la superficie celular. Sin embargo, los mecanismos por los cuales el rotavirus infecta la célula diana aún no se comprenden bien. Existe alguna evidencia que muestra que las proteínas estructurales de rotavirus VP5* y VP8* interactúan con algunas moléculas de la superficie celular. La disponibilidad de las proteínas estructurales de rotavirus recombinantes en cantidad suficiente se ha convertido en un aspecto importante para la identificación de las interacciones específicas de los receptores virus-célula durante los eventos tempranos del proceso infeccioso. Objetivo. El propósito del presente trabajo es realizar un análisis de las interacciones entre las proteínas estructurales de rotavirus recombinante VP5*, VP8* y VP6, y las proteínas celulares Hsc70 y PDI utilizando sus versiones recombinantes purificadas. Materiales y métodos. Las proteínas recombinantes de rotavirus VP5* y VP8* y las proteínas recombinantes celulares Hsc70 y PDI se expresaron en E. coli BL21 (DE3), mientras que VP6 se expresó en células MA104 con virus vaccinia recombinante transfectada. La interacción entre el rotavirus y las proteínas celulares se estudió mediante ELISA, co-inmunoprecipitación y SDS-PAGE/ Western. Resultados. Las condiciones óptimas para la expresión de proteínas recombinantes se determinaron y se generaron anticuerpos contra ellas. Los resultados sugirieron que las proteínas virales rVP5* y rVP6 interactúan con Hsc70 y PDI in vitro. También se encontró que éstas proteínas virales recombinantes interactúan con Hsc70 en las balsas lipídicas ("Rafts") en un cultivo celular. El tratamiento de las células, ya sea con DLP o rVP6 produjo significativamente la inhibición de la infección por rotavirus. Conclusión. Los resultados permiten concluir que rVP5 * y rVP6 interactúan con Hsc70 y PDI durante el proceso de la infección por rotavirus.