Bilateral choroidal effusion following vaccination against SARS-CoV-2 virus

An 80-year-old systemically stable female presented with sudden blurring of vision post the first dose of Covishield™, a non-replicating viral vector vaccine. On examination, she was found to have bilateral serous choroidal effusions. A thorough systemic and ocular workup was performed to rule out other causes of choroidal effusion. The effusions resolved with tapering doses of oral and systemic steroids. To the best of our knowledge, at the time of submission, this is the first case of choroidal effusion being reported after the coronavirus disease 2019 (COVID-19) vaccine.

EXPRESIÓN DE LA PROTEÍNA CORE DEL VIRUS DE LA HEPATITIS C EN CÉLULAS HepG2 USANDO EL VIRUS DEL BOSQUE DE SEMLIKI / Hepatitis C virus core protein expression in HepG2 cells using Semliki Forest Virus

RESUMEN El Virus de la Hepatitis C (VHC) codifica la proteína Core. Que, además de ser la subunidad de la cápside, participa en diferentes mecanismos de patogénesis de la infección por VHC. Dado que el sistema de replicación in vitro del VHC presenta limitaciones, el uso de vectores virales podría ser una herramienta útil para estudiar las propiedades de la proteína Core. Con el fin de validar el vector con el Virus del Bosque de Semliki (SFV) para el estudio de Core en células HepG2, se evaluó la expresión de la proteína verde fluorescente (GFP) y la proteína Core utilizando este vector viral. Las expresiones de GFP y Core se detectaron en células HepG2 transducidas con rSFV de 24 a 96 horas postransducción. La expresión de la proteína Core fue inferior a la expresión de GFP en las células HepG2. Teniendo en cuenta que la proteína Core del VHC puede regular la actividad del gen p53, se evaluó el nivel transcripcional de este gen. Se observó una disminución en el nivel de mARN de p53 en las células luego de la transducción, comparado con las células control. Aunque las células transducidas con rSFV-Core presentaron el menor nivel de mARN de p53, la diferencia no fue significativa comparada con las células transducidas con rSFV-GFP. Los resultados confirman que rSFV permite la expresión transitoria de proteínas heterólogas en líneas celulares de hepatoma humano. Se necesitan estudios adicionales para determinar si la expresión disminuida de Core puede deberse a degradación de la proteína viral.

ABSTRACT The Hepatitis C Virus (HCV) encodes the structural protein Core, which in addition to being the capsid subunit, participates in different mechanisms of HCV infection pathogenesis. Since HCV in vitro replication system has limitations, the use of viral vectors could be a useful tool to study the Core protein properties. To validate the Semliki Forest Virus (SFV) strategy in transduced HepG2 cells to study the HCV Core protein, the expression of green fluorescent protein (GFP) and Core protein expressions were detected 24 to 96 hours post-transduction in HepG2 cells transduced with rSFV. Core protein expression was lower than GFP expression in HepG2 cells. Since HCV Core protein can regulate the activity of the p53 gene, the transcriptional level of this gene was evaluated. A decrease in the level of p53 mRNA was observed in the cells after transduction, compared to the control cells. Although the cells transduced with rSFV-Core had the lowest level of p53 mRNA, the difference was not significant compared to cells transduced with rSFV-GFP. The results confirm that rSFV allows the transient expression of heterologous proteins in human hepatoma cell lines. Additional studies are needed to determine whether the decreased expression of Core may be due to the degradation of the viral protein.

Research progress of poly (β-amino ester)s-based gene vector / 药学学报

Poly (β-amino ester)s (PβAEs) contain tertiary amine backbones and biodegradable ester bonds, making them highly biocompatible and pH-responsive. Meanwhile, originated from combinatorial libraries, PβAEs are simple to synthesize, easy to obtain raw materials and can be easily adapted to meet the different performance needs of gene carriers by adjusting the monomer type, monomer ratio and reaction time. Therefore, PβAEs are promising material for non-viral gene carriers. This paper provides a comprehensive overview of the properties and synthesis of PβAEs gene carriers and summarizes the progress of research on the gene delivery of each type of PβAEs.

Non-viral vector for gene therapy in inherited retinal degeneration / 中华实验眼科杂志

Inherited retinal degeneration (IRD), a group of diseases often causing irreversible blindness, with multiple pathogenesis, still lacks effective treatments currently.Development of effective therapeutics is a primary research goal.Despite rapid advances in gene therapy during the past decades, the most challenging aspect of gene therapy in clinical applications for IRD is to deliver the curative molecules to achieve optimal expression levels in target cells safely.Apart from high gene transfection efficiency, there are still many limitations, such as immunogenicity, biosafety issue, etc.in the application of viral vectors, which drive the development of gene therapy based on non-viral vectors.As one of the hot research topics in non-viral vectors, encouraging progress has been made in DNA nanoparticles for IRD treatment.The polymer/DNA complex nanoparticle is compacted and encapsulated DNA via peptides, lipids, or polysaccharides.Besides, the non-viral delivery system shows cost, preparation, packaging capacity, and safety advantages, providing a promising non-viral platform for safe and effective treatment of IRD, such as retinitis pigmentosa, Stargardt disease, X-linked juvenile retinoschisis, Leber congenital amaurosis, and so on.In this article, advances in transfection efficiency, targeting ability and safety of non-viral gene therapy and its application in IRD were reviewed.

Vacunas para SARS-CoV-2: diferentes estrategias de los desarrollos en curso / Vaccines for SARS-CoV-2: different strategies of ongoing developments

El objetivo de este artículo es proporcionar una guía que sirva para la interpretación y seguimiento de los esfuerzos que se están desarrollando en todo el mundo con el objetivo de obtener una vacuna que pueda generar inmunidad contra el nuevo coronavirus SARS-CoV-2 de 2019, el agente causante de la enfermedad por coronavirus denominada COVID-19. Cinco meses después de haber sido detectada la enfermedad, ya hay 102 vacunas en distintos estadios de desarrollo, registradas por la Organización Mundial de la Salud (OMS), correspondientes a 8 plataformas vacunales con diferentes estrategias, y todos los días aparecen nuevas. Esto representará un enorme desafío de organismos internacionales, para la evaluación, comparación y selección de aquellas que cumplan con los criterios regulatorios indispensables de seguridad y eficacia y que, por otro lado, puedan ser producidas en cantidades suficientes para abastecer la demanda mundial. (AU)

The objective of this article is to provide a guide to help the interpretation and monitoring the efforts that are being carried out worldwide to obtain a vaccine that will be able to generate immunity against the new 2019 SARS-CoV-2 coronavirus, the viral agent causes the disease named COVID-19. Five months after the disease was detected, there are already 102 vaccines at different stages of development, registered by World Health Organization (WHO), corresponding to 8 vaccination platforms base on different strategies, and every day new ones appear. This will represent a huge challenge for international organizations, to evaluate, compare and selects those that will meet the essential regulatory criteria of safety and efficacy and that, would be able to be produced in enough quantities to supply the worldwide demand. Key words: SARS-Cov-2 vaccine, vaccine platform, COVID-19 strategy, attenuated virus, viral vector, viral proteins, viral DNA, viral RNA, nucleic acids, viral like particles, WHO. (AU)

Efficient drug and gene delivery to liver fibrosis: rationale, recent advances, and perspectives

Liver fibrosis results from chronic damages together with an accumulation of extracellular matrix, and no specific medical therapy is approved for that until now. Due to liver metabolic capacity for drugs, the fragility of drugs, and the presence of insurmountable physiological obstacles in the way of targeting, the development of efficient drug delivery systems for anti-fibrotics seems vital. We have explored articles with a different perspective on liver fibrosis over the two decades, then collected and summarized the information by providing corresponding  and  cases. We have discussed the mechanism of hepatic fibrogenesis with different ways of fibrosis induction in animals. Furthermore, the critical chemical and herbal anti-fibrotics, biological molecules such as micro-RNAs, siRNAs, and growth factors, which can affect cell division and differentiation, are mentioned. Likewise, drug and gene delivery and therapeutic systems on  and  models are summarized in the data tables. This review article enlightens recent advances in emerging drugs and nanocarriers and represents perspectives on targeting strategies employed in liver fibrosis treatment.

Recent progress of non-viral vector polyethylenimine in the application of gene delivery / 药学学报

In recent years, non-viral gene vectors have attracted great attention for efficient gene delivery due to the advantages, including low toxicity, low immunogenicity and simple preparation. Polyethylenimine (PEI) is one of the typical non-viral gene carriers that have been widely utilized for gene delivery owing to its superior capabilities in gene compression and buffering capacity. This article discusses the processes of gene delivery and the barriers of PEI-based carrier during the gene delivery, such as low biocompatibility, cytotoxicity, lack of specific targeting and insufficient gene release, etc. Therefore, we summarize the multiple approaches for the modifications of PEI in terms of improved biocompatibility, degradability, specific targeting and buffering capacity. Furthermore, we also review on the recent impressive progresses of smart stimuli-responsive PEI carriers, including endogenous stimuli (pH, reactive oxygen species, glutathione, biomolecular, etc), exogenous stimuli (light, temperature, magnetic field, etc) and dual-responsive strategies, which might provide guidance for the development of more efficient and safer non-viral gene vectors.

Concept, mechanism and problem of gene therapy for osteoarthritis / 中国组织工程研究

BACKGROUND: Specific gene expression at specific injury sites enhances cell regeneration. OBJECTIVE: To summarize the concept of gene therapy, to review the strategies of gene therapy and the mechanism of gene therapy for osteoarthritis, and to introduce the research direction of gene therapy. METHODS: Extensive consulted the literature on osteoarthritis gene therapy and related content in foreign databases such as PubMed and Science Direct. The key words were “Gene therapy, Cartilage, Cartilage repair, Osteoarthritis, Expression vectors, miRNA”. Above data were analyzed and summarized. RESULTS AND CONCLUSION: Gene therapy for osteoarthritis can be applied to all aspects of the pathogenesis of osteoarthritis and affect the metabolism of related substances. The target gene is delivered to the target cells through viral or non-viral vectors. At present, the focus of gene therapy is to accelerate cell repair and reduce inflammatory response. At the same time, multiple choices of gene vectors and target genes provide better individualized treatment options. The specific mechanism of gene therapy for osteoarthritis in clinic is not clear, and there is the possibility of gene mutation, which needs to be further studied to verify the safety.

Research status and application progress of CRISPR/Cas9 delivery system / 中国药科大学学报

@#Based on the three delivery forms of CRISPR/Cas9 system at the levels of DNA, RNA and protein, this paper mainly approaches the development and new strategies of CRISPR/Cas9 delivery systems, as well as their application in the biomedical field and the clinical treatment of gene-related diseases. By summarizing and elaborating the CRISPR/Cas9 system delivery and gene therapy strategy, new ideas are provided for the discovery of innovative drugs and the development of gene therapy.

Ausencia de expresión de la proteína Core del virus de la hepatitis C en células dendríticas derivadas de monocitos humanos utilizando virus del Bosque de Semliki recombinante / Lack of expression of hepatitis c virus core protein in human monocyte-derived dendritic cells using recombinant semliki forest virus

ABSTRACT Hepatitis C Virus belongs to the Flaviviridae family. One proposed mechanism of HCV persistence in the ability to infect hematopoietic cells, including Dendritic cells (DCs). HCV infection of DCs could impair their functions that represent one of the mechanisms, thus hampering viral clearance by the host immune system. Among HCV-encoded proteins, the highly conserved Core protein has been suggested to be responsible for the immunomodulatory properties of this Hepacivirus. Recombinant viral vectors expressing the HCV Core protein and allowing its transduction and therefore the expression of the protein into DCs could be useful tools for the analysis of the properties of the Core protein. Vaccinia Virus and retrovirus have been used to transduce human DCs. Likewise, gene transfer into DCs using Semliki Forest Virus has been reported. This study aimed to express the HCV Core protein in human monocyte-derived DCs using an SFV vector, in which the subgenomic RNA encoding the structural proteins was replaced by the HCV Core sequence and then analyze the effects of its expression on DCs functions.

RESUMEN El virus de la Hepatitis C (VHC) pertenece a la familia Flaviviridae. Uno de los mecanismos propuestos de la persistencia del VHC es la capacidad de infectar células hematopoyéticas, incluidas las células dendríticas (DCs). La infección por VHC de DCs podría alterar sus funciones y corresponde a uno de los mecanismos que impiden el aclaramiento de la infección por VHC por el sistema inmunitario del hospedero. Entre las proteínas codificadas por el VHC, se ha sugerido que la proteína Core, altamente conservada, es responsable de las propiedades inmunomoduladoras de este Hepacivirus. Los vectores virales recombinantes que expresan la proteína Core y permiten su transducción a DCs podrían ser herramientas útiles para el análisis de las propiedades de esta proteína. El virus Vaccinia y el retrovirus se han utilizado para la transducción de DCs humanas. Del mismo modo, la transducción de DCs usando el virus del bosque de Semliki ha sido reportada. El objetivo de este estudio fue expresar la proteína Core de VHC en DCs derivadas de monocitos humanos utilizando un vector de SFV, en el que el ARN subgenómico que codifica las proteínas estructurales fue reemplazado por la secuencia Core del VHC y evaluar los efectos de su expresión en las funciones de DCs.