Consensus from the Brazilian Academy of Neurology for the diagnosis, genetic counseling, and use of disease-modifying therapies in 5q spinal muscular atrophy / Consenso da Academia Brasileira de Neurologia para diagnóstico, aconselhamento genético e uso de terapias modificadoras na atrofia muscular espinhal 5q

Abstract Spinal muscular atrophy linked to chromosome 5 (SMA-5q) is an autosomal recessive genetic disease caused by mutations in the SMN1. SMA-5q is characterized by progressive degeneration of the spinal cord and bulbar motor neurons, causing severe motor and respiratory impairment with reduced survival, especially in its more severe clinical forms. In recent years, highly effective disease-modifying therapies have emerged, either acting by regulating the splicing of exon 7 of the SMN2 gene or adding a copy of the SMN1 gene through gene therapy, providing a drastic change in the natural history of the disease. In this way, developing therapeutic guides and expert consensus becomes essential to direct the use of these therapies in clinical practice. This consensus, prepared by Brazilian experts, aimed to review the main available disease-modifying therapies, critically analyze the results of clinical studies, and provide recommendations for their use in clinical practice for patients with SMA-5q. This consensus also addresses aspects related to diagnosis, genetic counseling, and follow-up of patients under drug treatment. Thus, this consensus provides valuable information regarding the current management of SMA-5q, helping therapeutic decisions in clinical practice and promoting additional gains in outcomes.

Resumo Atrofia muscular espinhal ligada ao cromossomo 5 (AME-5q) é uma doença genética de herança autossômica recessiva causada por mutações no gene SMN1. A AME-5q cursa com degeneração progressiva dos motoneurônios medulares e bulbares, acarretando grave comprometimento motor e respiratório com redução da sobrevida, especialmente nas suas formas clínicas mais graves. Nos últimos anos, terapias modificadoras da doença altamente eficazes, ou que atuam regulando o splicing do exon 7 do gene SMN2 ou adicionando uma cópia do gene SMN1 via terapia gênica, têm surgido, proporcionando uma mudança drástica na história natural da doença. Dessa forma, o desenvolvimento de guias terapêuticos e de consensos de especialistas torna-se importante no sentido de direcionar o uso dessas terapias na prática clínica. Este consenso, preparado por especialistas brasileiros, teve como objetivos revisar as principais terapias modificadoras de doença disponíveis, analisar criticamente os resultados dos estudos clínicos dessas terapias e prover recomendações para seu uso na prática clínica para pacientes com AME-5q. Aspectos relativos ao diagnóstico, aconselhamento genético e seguimento dos pacientes em uso das terapias também são abordados nesse consenso. Assim, esse consenso promove valiosas informações a respeito do manejo atual da AME-5q auxiliando decisões terapêuticas na prática clínica e promovendo ganhos adicionais nos desfechos finais.

Research advances in the treatment of Crigler-Najjar syndrome / 临床肝胆病杂志

Crigler-Najjar syndrome (CNS) is an autosomal recessive disorder in which the content of plasma unconjugated bilirubin is increased due to the reduction or complete deficiency of the activity of bilirubin uridine diphosphate glucuronosyl transferase 1A1 (UGT1A1), classified as CNS type Ⅰ and Ⅱ. CNS type Ⅰ is the most severe, which will develop into kernicterus, damage the brain nervous system, and even threaten the life of patients. This article introduces six CNS treatment techniques, including phototherapy, plasma exchange, drug therapy, liver transplantation, hepatocyte transplantation and gene therapy. The applicable patient types, treatment effects and existing deficiencies of each technique were summarized. Phototherapy, plasma exchange, drug therapy and hepatocyte transplantation can temporarily control serum levels and reduce the risk of jaundice, but cannot completely restore UGT1A1 enzyme activity; liver transplantation is currently the only treatment option for CNS type Ⅰ patients, but is limited by suitable liver donors and post-operative immune rejection. Gene therapy has the most promising application in the treatment of genetic disorders such as CNS, which can provide more viable therapeutic techniques for CNS patients.

Gene therapy in neuromuscular disorders / Terapia gênica nas doenças neuromusculares

Abstract Monogenic neuromuscular disorders are potentially treatable through gene therapy. Using viral vectors, a therapeutic transgene aims to restore normal levels of a protein not produced by the defective gene, or to silence a gene whose expression leads to toxic effects. Spinal Muscular Atrophy (SMA) is a good example of a monogenic disease that currently has an AAV9-based vector gene therapy as a therapeutic option. In this review, we intend to discuss the viral vectors and their mechanisms of action, in addition to reviewing the clinical trials that supported the approval of gene therapy (AVXS-101) for SMA as well as neuromuscular diseases that are potentially treatable with gene replacement therapy.

Resumo Doenças neuromusculares monogênicas são potencialmente tratáveis através de terapia gênica. Utilizando-se de vetores virais, um transgene terapêutico objetiva repor os níveis normais de uma proteina não produzida pelo gene defeituoso ou silenciar um gene cuja expressão leva a efeitos tóxicos. A Atrofia Muscular Espinhal (AME) é um bom exemplo de doença monogenica que atualmente tem uma terapia gênica com vetor viral AAV9 como opção terapêutica. Nesta revisão, pretendemos discutir os vetores virais e macanismos de ação utilizados, além de revisar os ensaios clínicos que embasaram a aprovação da terapia gênica (AVXS-101) para AME, assim como doenças neuromusculares potencialmente tratáveis com terapia de reposição gênica.

Research progress of tumor microenvironment-responsive RNA drug delivery systems / 药学学报

Cancer is considered as one of the major diseases endangering human health in the world, it is urgent to find a safer and more efficient treatment for cancer therapy. Gene therapy with ribonucleic acid (RNA) drugs could regulate the expression of tumor related genes, and exhibit good anti-tumor therapeutic potential in preclinical and clinical trials. Based on the differences between tumor tissues and normal tissues in microenvironment signal characteristics such as pH, specific enzyme concentration or redox gradient, various microenvironment responsive nanocarriers had been studied and developed to deliver RNA drugs to tumor tissues and cells, improving the anti-tumor efficacy of RNA drugs and reducing toxic and side effects. This paper reviews the pathophysiological characteristics of tumor microenvironment and various strategies of tumor microenvironment responsive nanocarriers, in order to provide reference for the design of safe and efficient RNA drug delivery system for cancer therapy.

Effect of local gene therapy on expression of Wnt3a and β-catenin in callus of distraction gap during mandibular distraction osteogenesis in rabbits / 中华医学美学美容杂志

Objective:To investigate the effect of electroporation-mediated local gene therapy on the expression of Wnt3a and β-catenin in callus of distraction gap during mandibular distraction osteogenesis of rabbits.Methods:The experiments were conducted in the laboratory of the Affiliated Friendship Plastic Surgery Hospital of Nanjing Medical University from September 2019 to December 2019. Forty eight New-Zealand rabbits were randomly divided into control group (group A), gene therapy group (group B) and normal saline group (group C), with 16 rabbits in each group. After bilateral mandible osteotomy and distractors were implanted, the distractors were activated at a speed of 0.8 mm/d on 4th day, postoperatively, and lasted for 7 days, followed by consolidation period. Group A distracted only, group B was subject to local injection of recombinant plasmid pIRES-hBMP2-hVEGF165 in the distraction gap and electroporation stimulation at the beginning of activation distractors; and group C local injection of the same dose of normal saline in the distraction gap and electroporation stimulation at the beginning of activation distractors. Four animals in each group were sacrificed on the day at the end of distraction, 7th, 14th, 28th days of consolidation period, respectively. The callus in the distraction gap was taken for immunohistochemical staining and RT-PCR to detect the expression of Wnt3a and β-catenin, and image analysis was performed. SPSS 22.0 statistical software was used for data analysis.Results:Immunohistochemical staining showed that Wnt3a and β-catenin were mainly located in the cytoplasm and nuclei of fibroblasts, chondrocytes and osteoblasts in callus tissue. Immunohistochemistry and RT-PCR showed that the expression of Wnt3a and β-catenin reached a peak at the end of distraction. With the disappearance of distraction tension, the expression of Wnt3a and β-catenin gradually decreased. After gene therapy intervention, the expression of Wnt3a and β-catenin was significantly increased, and the expression of Wnt3a and β-catenin in group B was the highest at each time point, with statistically significant difference compared with groups A and C ( F=96.3, P<0.01). Conclusions:Gene therapy promotes the expression of Wnt3a and β-catenin in the callus of distraction gap, regulating the balance of the bone reconstruction system and thus promoting the formation of new bone in the distraction gap.

Application of antisense oligonucleotide in the treatment of inherited retinal dystrophy / 中华实验眼科杂志

Gene therapy is expected to restore the function of genetic material fundamentally and it has become a new trend in inherited retinal dystrophy treatment.Antisense oligonucleotide (AON) is a kind of small molecule nucleic acid drug, which can specifically bind to messenger RNA through the base pairing principle, thus interfering or modifying gene expression at the transcription and translation level.Possessing the advantages of high specificity and efficiency, wide targeting range, low immunogenicity and limited adverse effect, AON has become a novel remedy for inherited retinal dystrophy.Currently, three different AON drugs have already been used in clinical trials for inherited retinal dystrophy.In this review, the chemical structure modification, properties and mechanism of AON, and the therapeutic strategies of AON in different inherited retinal dystrophy diseases in recent years were summarized.

Limitations and advances in new treatments and future perspectives of corneal blindness / Limitações e avanços em novos tratamentos e perspectivas futuras na cegueira corneal

ABSTRACT This review is intended to describe the therapeutic approaches for corneal blindness, detailing the steps and elements involved in corneal wound healing. It also presents the limitations of the actual surgical and pharmacological strategies used to restore and maintain corneal transparency in terms of long-term survival and geographic coverage. In addition, we critically review the perspectives of anabolic agents, including vitamin A, hormones, growth factors, and novel promitotic and anti-inflammatory modulators, to assist corneal wound healing. We discuss the studies involving nanotechnology, gene therapy, and tissue reengineering as potential future strategies to work solely or in combination with corneal surgery to prevent or revert corneal blindness.(AU)

RESUMO O presente trabalho traz uma revisão das abordagens terapêuticas para a cegueira da córnea. O estudo detalha as etapas e os elementos envolvidos na cicatrização da córnea. Ele mostra as limitações das estratégias cirúrgicas e farmacológicas usadas para restaurar e manter a transparência da córnea em termos de sobrevida a longo prazo e alcance geográfico. As perspectivas dos agentes anabólicos, incluindo vitamina A, hormônios, fatores de crescimento e novos moduladores pró-mitóticos e anti-inflamatórios para auxiliar a cicatrização da ferida na córnea, são revisadas criticamente. Aqui, apresentamos estudos envolvendo nanotecnologia, terapia gênica e reengenharia de tecidos como possíveis estratégias futuras para atuar de maneira isolada ou combinada com a cirurgia da córnea para prevenir ou reverter a cegueira corneana.(AU)

Papel de los microARN en la patogénesis del cáncer de próstata / The role of microRNAs in the pathogenesis of prostate cancer

Resumen El cáncer de próstata es una enfermedad prevalente, generadora de gran morbimortalidad y reportada como la quinta causa de muerte a nivel mundial. Según las estimaciones de GLOBOCAN (Global Cancer Observatory por sus siglas en inglés) para el año 2018 se reportaron 1 276 106 casos nuevos a nivel mundial. Recientemente, surgen los microARN como una posible estrategia futura como biomarcadores, tanto para el diagnóstico como para el tratamiento de la enfermedad. Los microARN son pequeñas moléculas de ARN que cumplen un papel en la regulación de la expresión génica, por lo que la expresión variable de estas moléculas tiene una función importante en la patogénesis del cáncer de próstata. La revisión de la literatura en diferentes bases de datos permitió evidenciar su papel en la patogénesis del cáncer de próstata. Se sugiere que la expresión diferencial de estas moléculas biológicas podría ser de utilidad en la práctica clínica. En Colombia se encuentra en investigación su utilidad en diferentes enfermedades, por lo cual esta revisión de tema podría contribuir a futuras investigaciones.

Abstract Prostate cancer is a prevalent disease, with great morbidity and mortality, reported as the fifth leading cause of death worldwide. According to estimates for 2018 by GLOBOCAN (Global Cancer Observatory), 1 276 106 new cases of prostate cancer were reported worldwide. Identifying methods that allow an early diagnosis and treatment of the disease is necessary. MicroRNA are a possible future strategy as biomarkers for prostate cancer. These are small RNA molecules, in charge of regulating genetic expression. Their differential expression is relevant in the pathogenesis of prostate cancer. Currently, literature suggests the differential expression of these biological molecules could be a tool in prostate cancer, with clinical utility. In Colombia new research related to microRNA and prostate cancer is being conducted, which justifies the pertinence of this literature review and the contribution it can have on future research.

Pathogenicity evaluation and splicing correction of COL4A5 splice mutation in X-linked Alport syndrome / 中华肾脏病杂志

Objective:To analyze the splicing mutation site of COL4A5 gene in a family with X-linked dominant Alport syndrome and explore the possibility of exon specific U1 small nuclear RNA (snRNA) gene therapy. Methods:The clinical data of the proband and family members of Alport syndrome were collected, and the gene mutations in the whole exon of a series of nephropathy genes in the proband were detected by high-throughput sequencing. The splice site changes and pathogenicity caused by COL4A5 c.546+5G>A mutation were analyzed by online software. Minigene experiment was used to verify and analyze the effect of COL4A5 gene mutation site c.546+5G>A in the proband of Alport syndrome family, and transient transfection and introduction of modified U1 snRNA to correct splicing mutation. Results:The results of gene sequencing showed that there was a hemizygous variation of COL4A5 gene in the proband and his half brother, and the variation site was c.546+5G>A. The results of online software for analyzing the pathogenicity of splice variation showed that the original donor splicing site could not be detected after mutation, suggesting that there was a great possibility of affecting splicing. The abnormal splicing mode of COL4A5 gene with c.546+5G>A mutation—deletion of exon 9 was verified by hybridized small gene detection. The abnormal splicing mutation could be partially corrected by the modified U1 snRNA. The correction ratios of ExSpeU1 (MT), ExSpeU1(E9+1), ExSpeU1(E9+9) and ExSpeU1(E9+11) to exon 9 deletion caused by c.546+5G>A were 0, 43.81%, 52.09% and 48.12%, respectively. Conclusions:The pathogenicity of the new splicing mutation of COL4A5 is verified, and the modified U1 snRNA can partially correct the abnormal splicing.

Advances of Cas9/sgRNA delivery system for gene editing / 生物工程学报

In the application of CRISPR genome editing, direct cellular delivery of non-replicable Cas9/sgRNA may reduce unwanted gene targeting and integrational mutagenesis, thus offering greater specificity and safety. Cas9/sgRNA delivery system holds great potential for treating genetic diseases. This review summarizes the advances of Cas9/sgRNA delivery systems and its therapeutic applications, providing new understandings and inspirations for vector design and future clinical applications.

La edición del ADN: ad portas de una revolución en la manipulación genética / DNA Edition: ad portas of a revolution in genetic manipulation

RESUMEN Dentro del mundo de las ciencias biológicas la terapia génica ha sido un tema llamativo desde su aparición. El desarrollo de nuevas tecnologías y avances en el campo de la bioingeniería como las nucleasas de dedos de zinc (ZFN), las nucleasas tipo activadores de transcripción (TALEN) y las repeticiones palindrómicas cortas agrupadas y regularmente interespaciadas (CRISPR/Cas9), abrieron las puertas a un sinnúmero de posibilidades en biología, entre ellas, la edición del genoma. Esta última consiste en la modificación directa del genoma a través de la introducción o escisión de secuencias nucleotídicas dentro de la hebra de ADN. Hoy en día su aplicación es extensa, desde el campo de la agroindustria y el control de plagas hasta el ámbito clínico con la "corrección" de enfermedades mendelianas, modulación de receptores inmunológicos en enfermedades infecciosas, modificaciones genéticas en líneas germinales, entre muchos otros empleos. Sin embargo, desde su descubrimiento en 1987, el sistema CRIS-PR/Cas9 no ha estado exento de polémica en aspectos bioéticos, la adquisición de su patente e, incluso, en cuanto a su eficacia. A pesar de las dificultades e incertidumbre que han surgido, el futuro del sistema es prometedor dada su sencillez y versatilidad de uso.

SUMMARY In biological sciences, genetic therapy constitutes a "trend topic" since its beginning. Development of new technologies in bioengineering as zinc-finger nucleases (ZFN), Transcription activator-like effector nucleases (TALEN) and Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR - Cas9) opened doors to a countless number of possibilities in biology, as genetic edition. Last one consists in a direct genomic modification through nucleotide sequences "introduction" or "cleavage" on DNA strands. Nowadays, its application is wide, since agroindustrial and pest control technologies to clinical area, with correcting mendelian diseases, modulating immunological receptors on infectious diseases, genetic modification in germ cells, among others. Nevertheless, since it's discovered in 1987, CRISPR - Cas9 system has not been exempt from controversy in bioethical aspects, patent acquisition and even about effectiveness. Despite the difficulties and uncertainty that have arisen, the future of the system is promising for its simplicity and versatility.

Gene therapy and its applicability in Dentistry / Terapia gênica e sua aplicabilidade na Odontologia

ABSTRACT Objective Explore scientific publications on the use of gene therapy in dentistry. Methods A bibliographic survey was carried out with articles published in the last eleven years, available on online platforms that had the highest correlation to the proposed theme. Results Since the 1960s, researchers have attempted to establish guidelines for treatments using gene therapy; however, it was only in the mid-1990s that their use in science was authorized. Gene therapy in dentistry has the ability to alter and improve genetically, through stem cells in dental tissues associated with recombinant viral vectors, therapeutic protocols against diseases that do notrespond to conventional treatments. Conclusion The perspectives of dentistry concerning this resource have been positive, mainly in the reestablishment and regeneration of tissues in pulp pathologies, periodontopathies, bone disorders, orofacial pain among others. It is known that this form of therapy still requires more research, however, in the near future, it may be a safe first option treatment in hospital and outpatient settings.

RESUMO Objetivo Explorar publicações cientificas acerca do uso da terapia gênica na Odontologia. Métodos Foi realizado um levantamento bibliográfico com artigos dos últimos dez anos disponíveis em plataformas online que continham maior correlação com o temaproposto. Resultados Desde os anos 60 pesquisadores tentam estabelecer diretrizes para tratamentos com a terapia gênica, no entanto, somente em meados dos anos 90 o seu uso na ciência foi autorizado. A terapia gênica em odontologia tem a capacidade de alterar e melhorar geneticamente, através de células-tronco em tecidos dentais e sua associação a vetores viras recombinados, protocolos terapêuticos contra enfermidades que não tem resposta aos tratamentos convencionais. Conclusão A perspectiva da odontologia diante deste recurso tem sido positiva, principalmente no reestabelecimento e regeneração de tecidos em patologias pulpares, periodopatias, distúrbios ósseos, dores orofaciais entre outros. Sabe-se que esta terapia ainda requer muitas pesquisas, entretanto em um futuro próximo poderá ser um tratamento de primeira escolha e de forma segura nos ambientes hospitalares e ambulatoriais.

Human Neural Stem Cells: Translational Research for Neonatal Hypoxic-Ischemic Brain Injury

Neonatal hypoxic-ischemic (HI) brain injury is a major cause of neonatal mortality and long-term neurodevelopmental disabilities. Although promising neuroprotective interventions have been studied, the current management of HI brain injury has been limited to supportive measures and induced hypothermia. In addition to engrafting, migrating toward the damage sites and differentiating into multiple lineages, multipotent neural stem/progenitor cells (NSPCs) also provide trophic/immunomodulatory factors and integrate into the host neurons upon implantation into an HI-injured brain. However, NSPC-based therapies have shown poor cell survival and integration, poor differentiation or restricted differentiation into the glial lineages. Furthermore, to achieve full functional recovery following brain injury, the optimization of cell therapy is needed to recapitulate the precise migration of stem cells to the region of interest and the neural rewiring present in the brain microenvironment. Therefore, the efficacy of NSPCs in the treatment of CNS injury is currently insufficient. Human NSPCs (hNSPCs) were isolated from the forebrain of an aborted fetus at 13 weeks of gestation with full parental consent and the approval of the Institutional Review Board of the Yonsei University College of Medicine. Here, to enhance the regenerative ability of hNSPCs in HI brain injury, cells were either pretreated with pharmacological agents or engineered to serve as vehicles for gene delivery. Furthermore, when combined with a poly (glycolic acid)-based synthetic scaffold, hNSPCs provide a more versatile treatment for neonatal HI brain injury. Finally, hNSPCs transfected with zinc-doped ferrite magnetic nanoparticles for controlling both cell migration and differentiation offer a simple and smart tool for cell-based therapies.

Tratamiento farmacológico y génico en las distrofias musculares de Duchenne y Becker / Pharmacologic and genetic treatment in the Duchenne and Becker muscular dystrophies

Introducción: Las distrofias musculares son las enfermedades degenerativas más comunes dentro de las enfermedades neuromusculares, cursan con debilidad muscular que progresa hasta la pérdida de la deambulación y en la segunda década de vida surgen complicaciones cardíacas, respiratorias y ortopédicas. Objetivo: Analizar el estado actual de los tratamientos génico y farmacológico en las distrofias musculares de Duchenne y Becker Métodos: Se realizó una búsqueda en los meses de enero, febrero y marzo de 2018 en las bases de datos Medline, Cinhal, Web Of Science y Scopus. Se obtuvieron 232 resultados y después de aplicar los criterios de inclusión y exclusión, se consiguieron para analizar 15 artículos válidos para la revisión. Resultados: Los artículos analizados investigan mayoritariamente el efecto de las terapias mencionadas a nivel de funcionalidad y de síntesis de la proteína distrofina durante períodos largos, en los que participan muestras de tamaño y edades variadas tanto como distrofia muscular de Duchenne y como distrofia muscular de Becker. Conclusiones: Existen más artículos enfocados en la distrofia muscular de Duchenne que en la distrofia muscular de Becker. Esto puede ser debido a que la primera es la más grave y de peor pronóstico. Sigue siendo necesario realizar más estudios para avanzar sobre el estado actual de estos tratamientos(AU)

Introduction: Muscular dystrophies are one of the most common degenerative pathologies within neuromuscular diseases. They present muscular weakness that develops until loss of wandering and in the second decade of life can appear cardiac, respiratory and orthopaedic complications. Objective: To know the current state of genetic and pharmacology treatments in the Duchenne and Becker muscular dystrophies. Methods: A search was made from January to March 2018 at Medline, Cinhal, Web Of Science and Scopus databases. 232 results were obtained, and applying the inclusion and exclusion criteria, 15 acceptable articles for reviewing were found. Results: Analyzed articles mostly investigate the effect of the mentioned therapies in the levels of functionality and dystrophin protein synthesis during long periods, in which samples of different sizes and ages are used. Conclusions: There are more articles focused on Duchenne Muscular Dystrophy than Becker Muscular Dystrophy. That can be due to the fact that the first is the most severe and with the worst prognosis. It is still necessary to carry out more scientific studies to move forward from the current stage of these treatments(AU)

Therapeutic advances in 5q-linked spinal muscular atrophy / Avanços terapêuticos na atrofia muscular espinhal ligada ao cromossomo 5q

ABSTRACT Spinal muscular atrophy (SMA) is a severe and clinically-heterogeneous motor neuron disease caused, in most cases, by a homozygous mutation in the SMN1 gene. Regarding the age of onset and motor involvement, at least four distinct clinical phenotypes have been recognized. This clinical variability is, in part, related to the SMN2 copy number. By now, only supportive therapies have been available. However, promising specific therapies are currently being developed based on different mechanisms to increase the level of SMN protein; in particular, intrathecal antisense oligonucleotides that prevent the skipping of exon 7 during SMN2 transcription, and intravenous SMN1 insertion using viral vector. These therapeutic perspectives open a new era in the natural history of the disease. In this review, we intend to discuss the most recent and promising therapeutic strategies, with special consideration to the pathogenesis of the disease and the mechanisms of action of such therapies.

RESUMO A atrofia muscular espinhal (AME) é uma grave doença dos neurônios motores, de grande variabilidade clínica e causada na maioria dos casos por mutação em homozigose no gene SMN1. Pelo menos quatro fenótipos clínicos distintos são reconhecidos com base na idade de início e no grau de envolvimento motor. Tal variabilidade clínica é em parte relacionada com o número de cópias do gene SMN2. Até recentemente, apenas terapias de suporte estavam disponíveis. Atualmente, terapias especificas estão sendo desenvolvidas com base em diferentes mecanismos para aumentar o nível de proteína SMN; em particular oligonucleotídeos antissenso por via intratecal e inserção de cópia do gene SMN1, via endovenosa, usando vetor viral. Nesta revisão, objetivamos discutir as mais recentes e promissoras estratégias terapêuticas, com consideração especial aos aspectos patogênicos da doença e aos mecanismos de ação de tais terapias.

Vascular endothelial growth factor association with angiopoietin 1 promotes improvement in ventricular function after ischemic cardiomyopathy induced in mini pigs

Abstract Purpose: To investigate the safety and clinical, hemodynamic and tissue improvement ability in mini pigs undergoing cell and gene therapy for the treatment of acute myocardial infarction. Methods: Thirty-two mini pigs Br1 lineage, 12 months old, undergoing induction of acute myocardial infarction by occlusion of the diagonal branch of the paraconal coronary. They were divided into 4 groups: one control group and 3 treatment groups (cell therapy and gene cell therapy). Echocardiography reviews were performed on three occasions and histopathological analysis was performed after 4 weeks. Analysis of variance (ANOVA), Tukey and Wilcoxon tests, were performed. Results: Association of vascular endothelial growth factor (VEGF) with angiopoietin1 (Ang1) presented satisfactory results in the improvement of ventricular function following ischemic cardiomyopathy in mini pigs when compared to the results of the other treated groups. Conclusion: The therapy with VEGF and the combination of VEGF with Ang1, promoted recovered function of the myocardium, characterized by reduced akinetic area and induction of neovascularization.

Progress in nanoscale RNA delivery systems for the treatment of ovarian cancer / 肿瘤

For the moment, surgery and chemotherapy are the first-line treatment regimens of ovarian cancer, but the number of patients with chemotherapy resistance is increasing. Although molecular targeted therapy and immunotherapy have achieved some curative effects, the five-year overall survival rate of ovarian cancer patients has not been significantly improved. RNA interference (RNAi) is a posttranscriptional regulation technology which can silence the diseasecausing genes. Therefore, the gene therapy based on RNAi may be a new way to treat ovarian cancer. The non-viral nanoscale RNA delivery system has the advantages of low toxicity and high nucleic acid load. The nano-carrier materials mainly include polymers, lipids, mesoporous silicon and natural nanomaterials, etc. In recent years, the non-viral nanoscale RNA systems have obtained many favorable effects in the feld of ovarian cancer. This article reviews the current studies of nanoscale RNA systems, and introduces the application of nanoscale RNA systems in the feld of ovarian cancer.

Gene therapy: advances, challenges and perspectives / Terapia gênica: avanços, desafios e perspectivas

ABSTRACT The ability to make site-specific modifications to the human genome has been an objective in medicine since the recognition of the gene as the basic unit of heredity. Thus, gene therapy is understood as the ability of genetic improvement through the correction of altered (mutated) genes or site-specific modifications that target therapeutic treatment. This therapy became possible through the advances of genetics and bioengineering that enabled manipulating vectors for delivery of extrachromosomal material to target cells. One of the main focuses of this technique is the optimization of delivery vehicles (vectors) that are mostly plasmids, nanostructured or viruses. The viruses are more often investigated due to their excellence of invading cells and inserting their genetic material. However, there is great concern regarding exacerbated immune responses and genome manipulation, especially in germ line cells. In vivo studies in in somatic cell showed satisfactory results with approved protocols in clinical trials. These trials have been conducted in the United States, Europe, Australia and China. Recent biotechnological advances, such as induced pluripotent stem cells in patients with liver diseases, chimeric antigen receptor T-cell immunotherapy, and genomic editing by CRISPR/Cas9, are addressed in this review.

RESUMO A habilidade de fazer modificações pontuais no genoma humano tem sido o objetivo da medicina desde o conhecimento do DNA como unidade básica da hereditariedade. Entende-se terapia gênica como a capacidade do melhoramento genético por meio da correção de genes alterados (mutados) ou modificações sítio-específicas, que tenham como alvo o tratamento terapêutico. Este tipo de procedimento tornou-se possível por conta dos avanços da genética e da bioengenharia, que permitiram a manipulação de vetores para a entrega do material extracromossomal em células-alvo. Um dos principais focos desta técnica é a otimização dos veículos de entrega (vetores) que, em sua maioria, são plasmídeos, nanoestruturados ou vírus − sendo estes últimos os mais estudados, devido à sua excelência em invadir as células e inserir seu material genético. No entanto, existe grande preocupação referente às respostas imunes exacerbadas e à manipulação do genoma, principalmente em linhagens germinativas. Estudos em células somáticas in vivo apresentaram resultados satisfatórios, e já existem protocolos aprovados para uso clínico. Os principais trials têm sido conduzidos nos Estados Unidos, Europa, Austrália e China. Recentes avanços biotecnológicos empregados para o aprimoramento da terapia gênica, como células-tronco pluripotentes induzidas em pacientes portadores de doenças hepáticas, imunoterapia com células T do receptor do antígeno quimera e edição genômica pelos sistema CRISPR/Cas9, são abordados nesta revisão.

Progress in systemic administration of adenovirus vector for cancer gene therapy / 肿瘤

Gene therapy has become a new cancer therapy model behind surgical excision, radiotherapy, chemotherapy and interventional therapy. The choice of proper carrier is very important in cancer gene therapy. Adenovirus is widely used as a vector carrier in cancer gene therapy. Gene-engineered oncolytic adenovirus (OncoAd) has the advantages including cancer cell-specific replication, infected cell destruction, and high expression of inserted therapeutic genes, so as to obtain the potent antitumor efficacy. Therefore, using OncoAd is considered to be an effective tumor therapy strategy. The systemic administration of intravenous delivery plays an important role in the treatment of advanced metastatic cancer. However, the delivery of OncoAd was limited to local injection in vivo in the past. Because the efficacy of intravenously administering OncoAd is compromised by non-specific sequestration in the liver and host immune response, while the non-viral vectors have the advantages of good biosafety and low immunogenicity, the combination of the two will be beneficial to the systemic administration of OncoAd. In this paper, the research strategies of OncoAd intravenous delivery for cancer gene therapy in recent years are reviewed, and the research progress in OncoAd combined with non-viral vector for cancer gene therapy is emphasized.

CRISPR-Cas9: a promising tool for gene editing on induced pluripotent stem cells

Recent advances in genome editing with programmable nucleases have opened up new avenues for multiple applications, from basic research to clinical therapy. The ease of use of the technology—and particularly clustered regularly interspaced short palindromic repeats (CRISPR)—will allow us to improve our understanding of genomic variation in disease processes via cellular and animal models. Here, we highlight the progress made in correcting gene mutations in monogenic hereditary disorders and discuss various CRISPR-associated applications, such as cancer research, synthetic biology, and gene therapy using induced pluripotent stem cells. The challenges, ethical issues, and future prospects of CRISPR-based systems for human research are also discussed.