Résumé
Abstract Introduction Chimeric Antigen Receptor (CAR) T cells have tremendous potentials for cancer treatment; however, various challenges impede their universal use. These restrictions include the poor function of T cells in tumor microenvironments, the shortage of tumor-specific antigens and, finally, the high cost and time-consuming process, as well as the poor scalability of the method. Creative gene-editing tools have addressed each of these limitations and introduced next generation products for cell therapy. The clustered regularly interspaced short palindromic repeats-associated endonuclease 9 (CRISPR/Cas9) system has triggered a revolution in biology fields, as it has a great capacity for genetic manipulation. Method In this review, we considered the latest development of CRISPR/Cas9 methods for the chimeric antigen receptor T cell (CAR T)-based immunotherapy. Results The ability of the CRISPR/Cas9 system to generate the universal CAR T cells and also potent T cells that are persistent against exhaustion and inhibition was explored. Conclusion: We explained CRISPR delivery methods, as well as addressing safety concerns related to the use of the CRISPR/Cas9 system and their potential solutions.
Résumé
Objective:This study aims to analyze the threshold changes in distortion product otoacoustic emissions(DPOAE) and auditory brainstem response(ABR) in adult Otof-/- mice before and after gene therapy, evaluating its effectiveness and exploring methods for assessing hearing recovery post-treatment. Methods:At the age of 4 weeks, adult Otof-/- mice received an inner ear injection of a therapeutic agent containing intein-mediated recombination of the OTOF gene, delivered via dual AAV vectors through the round window membrane(RWM). Immunofluorescence staining assessed the proportion of inner ear hair cells with restored otoferlin expression and the number of synapses.Statistical analysis was performed to compare the DPOAE and ABR thresholds before and after the treatment. Results:AAV-PHP. eB demonstrates high transduction efficiency in inner ear hair cells. The therapeutic regimen corrected hearing loss in adult Otof-/- mice without impacting auditory function in wild-type mice. The changes in DPOAE and ABR thresholds after gene therapy are significantly correlated at 16 kHz. Post-treatment,a slight increase in DPOAE was observeds,followed by a recovery trend at 2 months post-treatment. Conclusion:Gene therapy significantly restored hearing in adult Otof-/- mice, though the surgical delivery may cause transient hearing damage. Precise and gentle surgical techniques are essential to maximize gene therapy's efficacy.
Sujets)
Souris , Animaux , Émissions otoacoustiques spontanées/physiologie , Ouïe/physiologie , Oreille interne , Perte d'audition/thérapie , Thérapie génétique , Seuil auditif/physiologie , Potentiels évoqués auditifs du tronc cérébral/physiologie , Protéines membranairesRésumé
Renal allograft fibrosis is one of the common and severe complications after kidney transplantation, which seriously affects the function and survival rate of renal allograft, and may even lead to organ failure and patient death. At present, the researches on renal allograft fibrosis are highly complicated, including immunity, ischemia-reperfusion injury, infection and drug toxicity, etc. The diagnosis and treatment of renal allograft fibrosis remain extremely challenging. In this article, the latest research progress was reviewed and the causes, novel diagnosis and treatment strategies for renal allograft fibrosis were investigated. By improving diagnostic accuracy and optimizing treatment regimen, it is expected to enhance clinical prognosis of kidney transplant recipients, aiming to provide reference for clinicians to deliver proper management for kidney transplant recipients.
Résumé
Resumen Las novedades en el campo de los errores innatos del metabolismo (EIM) son espectaculares. Se han descrito nuevos EIM, se conoce mejor sus bases fisiopatológicas y las implicaciones para el organismo. Con la llegada de las nuevas técnicas de metabolómica, lípidomica y genómica se han multiplicado los avances en el diag nóstico y permiten explorar nuevas opciones terapéu ticas. Se ha establecido una nueva clasificación de los EIM en base a los más de 1.450 EIM identificados. Está irrumpiendo una nueva especialidad, que es la medici na metabólica. El cribado neonatal se estáempezando a universalizar y nos permite hoy en día, con tándem masas, el diagnóstico de más de 20 enfermedades me tabólicas del período neonatal que tienen opciones de tratamiento. Se están creando unidades de EIM para adultos para seguir niños con EIM que sobreviven a la enfermedad y con cada vez mejor calidad de vida y se diagnostican EIM que debutan en la adolescencia o laedad adulta. Aparecen las terapias personalizadas y las guías de práctica clínica para muchos EIM. Finalmente están emergiendo cada vez nuevas opciones terapéuticas que permiten una mayor supervivencia y mejor calidad de vida. La terapia génica convencional ya se está aplicando en algunos EIM.Sin embargo, las estrategias de edición de genes con terapias de ARN pueden permitir corregir la mutación genética mini mizando los problemas asociados con la terapia génica de compensación convencional.
Abstract The advances in the field of inborn errors of metabo lism (IEM) are spectacular. New IEM have been described, their pathophysiological bases and implications for the organism are better known. With the advent of new metabolomics, lipidomics and genomics techniques, advances in diagnosis have multiplied and allow new therapeutic options to be explored. A new IEM classi fication has been established based on the more than 1.450 IEM identified. A new specialty is emerging, which is metabolic medicine. Neonatal screening is becom ing universal and allows us today, with tandem mass, to diagnose more than 20 metabolic diseases of the neonatal period, with treatment options. IEM units for adults are being created to follow-up children with IEM who survive the disease and with an increasingly better quality of life, and some IEM that start in adolescence or adulthood are diagnosed. Personalized therapies and clinical practice guidelines appear for any IEM. Finally, new therapeutic options are emerging day to day that allow a longer survival and better quality of life. Con ventional gene therapy is already being applied in some IEM. However, gene editing strategies with RNA thera pies may allow the correction of the genetic mutation, minimizing the problems associated with conventional compensation gene therapy.
Résumé
Resumen La terapia génica ha logrado avances significativos en el tratamiento de enfermedades genéticas, especial mente en enfermedades raras y monogénicas. Se han desarrollado y aprobado terapias génicas para tratar en fermedades como la atrofia muscular espinal, brindando esperanza a los pacientes y demostrando la eficacia de esta terapia. Actualmente, se están realizando numerosos ensayos clínicos para evaluar la seguridad y eficacia de la terapia génica en diversas enfermedades, particularmente en el campo de la neurología pediátrica. Estos estudios están generando datos alentadores y contribuyen al conoci miento sobre cómo mejorar las técnicas de terapia génica. A pesar de los avances, la terapia génica enfrenta desafíos importantes. Es una terapia costosa y téc nicamente compleja, lo que limita su accesibilidad. Además, aspectos como la entrega eficiente de genes, la respuesta inmunológica a los vectores y la duración de la respuesta terapéutica requieren mejoras. se está investigando activamente. En cuanto al futuro de la terapia génica, se espera que los avances en tecnología de edición génica, como CRISPR-Cas9, permitan una mayor precisión y eficiencia en la modificación de genes. Se espera que la investigación en vectores de terapia génica mejore la capacidad de entrega y la seguridad de los tratamientos. Se están desarrollando nuevas ge neraciones de vectores virales y no virales que podrían superar las limitaciones actuales y permitir una admi nistración más eficiente y precisa de genes terapéuticos.
Abstract Gene therapy has achieved significant advancements in the treatment of genetic diseases, especially in rare and monogenic diseases. Gene therapies have been de veloped and approved to treat diseases such as spinal muscular atrophy, offering hope to patients and dem onstrating the effectiveness of this therapy. Currently, numerous clinical trials are being conduct ed to evaluate the safety and efficacy of gene therapy in various diseases, particularly in the field of pediatric neurology. These studies are generating encouraging data and contributing to the knowledge on how to im prove gene therapy techniques. Despite the advancements, gene therapy faces significant challenges. It is a costly and technically complex therapy, limiting its accessibility. Addition ally, aspects such as efficient gene delivery, immune response to vectors, and duration of therapeutic re sponse require improvements and are actively being investigated. Regarding the future of gene therapy, advances in gene editing technology, such as CRISPR-Cas9, are ex pected to allow for greater precision and efficiency in gene modification. Research on gene therapy vectors is expected to en hance the delivery capacity and safety of treatments. New generations of viral and non-viral vectors are be ing developed that could overcome current limitations and enable more efficient and precise administration of therapeutic genes.
Résumé
Resumen El desarrollo de tecnologías para la edición del genoma ha abierto la posibilidad de apuntar directamente y modificar secuencias genómicas en casi todo tipo de células eucariotas. La edición del genoma ha ampliado nuestra capacidad para dilucidar la contribución de la genética a las enfermedades al promover la creación de modelos celulares y animales más precisos de procesos patológicos y ha comenzado a mostrar su potencial en una variedad de campos, que van desde la investigación básica hasta la biotecnología aplicada y biomédica. Entre estas tecnologías, el uso de las repeticiones palindrómicas cortas agrupadas regularmente espaciadas ha acelerado, en gran medida, el progreso de la edición de genes desde el concepto hasta la práctica clínica, generando, además, interés debido, no solo a su precisión y eficiencia, sino también a la rapidez y a los costos necesarios para su implementación en comparación con otras tecnologías de edición genómica. En esta revisión se presenta información recabada de publicaciones indexadas en la base de datos PubMed que se encontraron mediante el uso de palabras claves asociadas con la tecnología y que se filtraron para retener solo aquellas con evidencias de avances clínicamente relevantes y que permiten demostrar algunas de las aplicaciones que tiene esta tecnología en la investigación, pronóstico y tratamiento de enfermedades genéticas, cardiovasculares, virales, entre otras; esto con el objetivo de dar a conocer la situación actual de los avances en aplicaciones clínicas de la herramienta CRISPR-Cas y fomentar aún más la investigación en esta tecnología, la cual, tal como se evidencia a lo largo de esta revisión, posee una gran versatilidad y un amplio rango de aplicaciones, lo que ofrece una enorme oportunidad en el campo de la medicina genómica, pero que, a su vez, requiere un mayor fomento en su investigación para mejorar la tecnología y acercarla aún más a consolidar aplicaciones clínicas de uso seguro, confiable y consistente.
Abstract The development of genome editing technologies has opened up the possibility of directly targeting and modifying genomic sequences in almost all types of eukaryotic cells. Genome editing has expanded our ability to elucidate the contribution of genetics to disease by promoting the creation of more precise cellular and animal models of disease processes and has begun to show its potential in a variety of fields, ranging from basic research to applied and biomedical biotechnology. Among these technologies, the use of clustered regularly spaced short palindromic repeats have greatly accelerated the progress of gene editing from concept to clinical practice, further generating interest due not only to its precision and efficiency, but also to the speed and costs required for its implementation compared to other genomic editing methods. This review presents information collected from indexed publications in the PubMed database that were found by using keywords associated with the technology and filtered to retain only those with evidence of clinically relevant advances that demonstrate some of the applications that this technology has in research, prognosis, and treatment of genetic, cardiovascular, and viral diseases, among others; this with the aim of show the current situation of advances in clinical applications of the CRISPR-Cas tool and further encourage research in this technology, which, as evidenced throughout this review, has a great versatility and a wide range of applications, which offers an enormous opportunity in the field of genomic medicine but which, in turn, requires greater support in its research to improve the technology and bring it even closer to consolidating clinical applications of safe, reliable and consistent use.
Résumé
ABSTRACT CRISPR/Cas genes evolved in prokaryotic organisms as a mechanism of defense designed to identify and destroy genetic material from threatening viruses. A breakthrough discovery is that CRISPR/Cas system can be used in eukaryotic cells to edit almost any desired gene. This comprehensive review addresses the most relevant work in the CRISPR/Cas field, including its history, molecular biology, gene editing capability, ongoing clinical trials, and bioethics. Although the science involved is complex, we intended to describe it in a concise manner that could be of interest to diverse readers, including anyone dedicated to the treatment of patients who could potentially benefit from gene editing, molecular biologists, and bioethicists. CRISPR/Cas has the potential to correct inherited diseases caused by single point mutations, to knock-in the promoter of a gene whose expression is highly desirable or knockout the gene coding for a deleterious protein. CRISPR/Cas technique can also be used to edit ex vivo immune cells and reinsert them in patients, improving their efficiency in attacking malignant cells, limiting the infectious potential of viruses or modulating xenotransplant rejection. Very important bioethical considerations on this topic include the need to internationally regulate its use by ad hoc expert committees and to limit its use until safety and bioethical issues are satisfactorily resolved.
Résumé
Primary ciliary dyskinesia (PCD) is an inherited disease characterized by impaired ciliary ultrastructure and function.Respiratory symptoms are the most important clinical manifestations of PCD.More than 50 pathogenic genes responsible for PCD have been identified, which have been contributed to clarify the etiology of PCD.At present, special therapy and gold standard for the diagnosis of PCD are scant.Gene therapy can restore ciliary function.Gene testing can identify the genetic etiology of PCD, and promote the development of individualized gene therapy.This review aims to summarize the research progress on genetic etiology of PCD and its genetic testing and gene therapy.
Résumé
Breast cancer is a malignant tumor that seriously threatens women’s health at present. Although surgical treatment is the most direct and effective, it is limited by many factors and needs to be assisted by other treatments. In addition to conventional radiotherapy, these adjuvant therapies also include chemotherapy, gene therapy, phototherapy and so on. However, the therapeutic agents used in these treatment methods have some limitations, such as poor water-solubility, instability and targeting. With the development of nano-technology, more and more researchers construct and study nano delivery system for breast tumor treatment, such as response system designed based on tumor microenvironment, temperature sensitive response system, nano delivery system based on specific proteins of tumor cell membrane, etc. The author summarizes the nano delivery system, and finds that these nano delivery systems can not only improve the water-solubility and stability of the therapeutic agents, but also accurately deliver them to the breast tumor site by targeted means, improve the efficacy and reduce toxic side effects, which provides new ideas for the treatment of breast cancer in the future.
Résumé
Inherited ocular diseases comprise a heterogeneous group of rare and complex diseases, including inherited retinal diseases (IRDs) and inherited optic neuropathies. Recent success in adeno-associated virus-based gene therapy, voretigene neparvovec (Luxturna®) for RPE65-related IRDs, has heralded rapid evolution in gene therapy platform technologies and strategies, from gene augmentation to RNA editing, as well as gene agnostic approaches such as optogenetics. This review discusses the fundamentals underlying the mode of inheritance, natural history studies and clinical trial outcomes, as well as current and emerging therapies covering gene therapy strategies, cell-based therapies and bionic vision.
Sujets)
Humains , Maladies de l'oeil/thérapieRésumé
There are more than 7,000 paediatric genetic diseases (PGDs) but less than 5% have treatment options. Treatment strategies targeting different levels of the biological process of the disease have led to optimal health outcomes in a subset of patients with PGDs, where treatment is available. In the past 3 decades, there has been rapid advancement in the development of novel therapies, including gene therapy, for many PGDs. The therapeutic success of treatment relies heavily on knowledge of the genetic basis and the disease mechanism. Specifically, gene therapy has been shown to be effective in various clinical trials, and indeed, these trials have led to regulatory approvals, paving the way for gene therapies for other types of PGDs. In this review, we provide an overview of the treatment strategies and focus on some of the recent advancements in therapeutics for PGDs.
Sujets)
Enfant , Humains , Maladies génétiques congénitales/thérapie , Thérapie génétiqueRésumé
As an effective treatment for end-stage liver disease, liver transplantation has been widely carried out worldwide and gradually captivated widespread recognition. With the advancement of liver transplantation techniques, the incidence of postoperative complications has been gradually declined, and the short-term and long-term prognosis of recipients have been constantly improved. However, a huge gap has existed between the supply and demand of donor organs, which is a major factors restricting the development of liver transplantation. The amount of liver transplantation operation in China is increasing year by year, the shortage of donor liver is becoming more and more prominent, and marginal donor liver is increasingly used in clinic. In recent years, the selection criteria of donor organs, organ preservation and functional maintenance have been continuously improved. In this article, the application and development trend of different techniques were reviewed from the perspectives of donor liver preservation and functional maintenance, and recent technical development and research results were summarized, aiming to provide reference for further enhancing the survival rate of grafts and recipients and promoting the development of liver transplantation in China.
Résumé
Fundus vascular diseases, including neovascular age-related macular degeneration(nAMD)and diabetic retinopathy(DR), are the leading causes of visual impairment worldwide. With the accelerated aging and increased incidence of diabetes, the prevalence of these two fundus diseases will continue to rise. Currently, intraocular injection of anti-vascular endothelial growth factor(anti-VEGF)remains the first-line treatment for fundus vascular diseases, but disadvantages exist, such as frequent intraocular injections, high cost and poor compliance, thus more durable and effective therapeutic strategies need to be explored. The successful application of gene therapy in inherited retinal diseases(IRDs)provides a new idea for the treatment of fundus vascular diseases. With the ongoing of several clinical trials, gene therapy for fundus vascular diseases is expected to be employed in the clinical setting. But there still remain some concerns, including the optimal therapeutic targets selection, administration route and safety issues. This review focuses on the application and prospect of gene augmentation and gene editing-mediated anti-VEGF therapy for the treatment of nAMD and DR.
Résumé
Nucleic acid-based drugs, such as RNA and DNA drugs, exert their effects at the genetic level. Currently, widely utilized nucleic acid-based drugs include nucleic acid aptamers, antisense oligonucleotides, mRNA, miRNA, siRNA and saRNA. However, these drugs frequently encounter challenges during clinical application, such as poor stability, weak targeting specificity, and difficulties in traversing physiological barriers. By employing chemical modifications of nucleic acid structures, it is possible to enhance the stability and targeting specificity of certain nucleic acid drugs within the body, thereby improving delivery efficiency and reducing immunogenicity. Moreover, utilizing nucleic acid drug carriers can facilitate the transportation of drugs to lesion sites, thereby aiding efficient intracellular escape and promoting drug efficacy within the body. Currently, commonly employed delivery carriers include virus vectors, lipid nanoparticles, polymer nanoparticles, inorganic nanoparticles, protein carriers and extracellular vesicles. Nevertheless, individual modifications or delivery carriers alone are insufficient to overcome numerous obstacles. The integration of nucleic acid chemical modifications with drug delivery systems holds promise for achieving enhanced therapeutic effects. However, this approach also presents increased technical complexity and clinical translation costs. Therefore, the development of nucleic acid drug carriers and nucleic acid chemical modifications that are both practical and simple, while maintaining high efficacy, low toxicity, and precise nucleic acid delivery, has become a prominent research focus in the field of nucleic acid drug development. This review comprehensively summarizes the advancements in nucleic acid-based drug modifica-tions and delivery systems. Additionally, strategies to enhance nucleic acid drug delivery efficiency are discussed, with the aim of providing valuable insights for the translational application of nucleic acid drugs.
Sujets)
Acides nucléiques , Petit ARN interférent/génétique , Vecteurs de médicaments , Systèmes de délivrance de médicaments , Développement de médicamentRésumé
Hemophilia A(HA) is an X-linked recessive bleeding disorder caused by mutations in coagulation factor VIII. Nowadays, exogenous coagulation factor replacement therapy is the main treatment. With the continuous development of gene therapy, new research directions have been provided for the treatment of hemophilia A. CRISPR-Cas9 technology was applied to select suitable target sites, and mediate the targeted knock-in and efficient expression of exogenous B-domain-deleted FⅧ variant gene through corresponding vectors for the treatment of hemophilia A.CRISPR-Cas9 technology is an emerging gene editing tool with great efficiency, safety and effectiveness, and has been widely used in hemophilia gene therapy research. This paper reviews the vector selection, construction of therapeutic genes, gene editing technology and selection of expression target sites for hemophilia A gene therapy at this stage.
Sujets)
Humains , Hémophilie A/thérapie , Systèmes CRISPR-Cas , Hémophilie B/thérapie , Édition de gène , Thérapie génétique , Vecteurs génétiquesRésumé
OBJECTIVE@#To screen better promoters and provide more powerful tools for basic research and gene therapy of hemophilia.@*METHODS@#Bioinformatics methods were used to analyze the promoters expressing housekeeping genes with high abundance, so as to select potential candidate promoters. The GFP reporter gene vector was constructed, and the packaging efficiency of the novel promoter was investigated with EF1 α promoter as control, and the transcription and activities of the reporter gene were investigated too. The activity of the candidate promoter was investigated by loading F9 gene.@*RESULTS@#The most potential RPS6 promoter was obtained by screening. There was no difference in lentiviral packaging between EF1 α-LV and RPS6-LV, and their virus titer were consistent. In 293T cells, the transduction efficiency and mean fluorescence intensity of RPS6pro-LV and EF1 αpro-LV were proportional to the lentiviral dose. The transfection efficiency of both promoters in different types of cells was in the following order: 293T>HEL>MSC; Compared with EF1 αpro-LV, RPS6pro-LV could obtain a higher fluorescence intensity in MSC cells, and RPS6pro-LV was more stable in long-term cultured HEL cells infected with two lentiviruses respectively. The results of RT-qPCR, Western blot and FIX activity (FIX∶C) detection of K562 cell culture supernatant showed that FIX expression in the EF1 α-F9 and RPS6-F9 groups was higher than that in the unloaded control group, and there was no significant difference in FIX expression between the EF1 α-F9 and RPS6-F9 groups.@*CONCLUSION@#After screening and optimization, a promoter was obtained, which can be widely used for exogenous gene expression. The high stability and viability of the promoter were confirmed by long-term culture and active gene expression, which providing a powerful tool for basic research and clinical gene therapy of hemophilia.
Sujets)
Humains , Transduction génétique , Vecteurs génétiques , Hémophilie A/génétique , Transfection , Facteurs de la coagulation sanguine/génétique , Lentivirus/génétiqueRésumé
There are more than 7 000 rare diseases and approximately 475 million individuals with rare diseases globally, with children accounting for two-thirds of this population. Due to a relatively small patient population and limited financial resources allocated for drug research and development in pharmaceutical enterprises, there are still no drugs approved for the treatment of several thousands of these rare diseases. At present, there are no drugs for 95% of the patients with rare diseases, and consequently, the therapeutic drugs for rare diseases have been designated as orphan drugs. In order to guide pharmaceutical enterprises to strengthen the research and development of orphan drugs, various nations have enacted the acts for rare disease drugs, promoted and simplified the patent application process for orphan drugs, and provided scientific recommendations and guidance for the research and development of orphan drugs. Since there is a relatively high incidence rate of rare diseases in children, this article reviews the latest research on pharmacotherapy for children with rare diseases.
Sujets)
Humains , Enfant , Maladies rares/traitement médicamenteux , Médicament orphelin , Préparations pharmaceutiquesRésumé
CRISPR, as an emerging gene editing technology, has been widely used in multiple fields due to its convenient operation, less cost, high efficiency and precision. This robust and effective device has revolutionized the development of biomedical research at an unexpected speed in recent years. The development of intelligent and precise CRISPR delivery strategies in a controllable and safe manner is the prerequisite for translational clinical medicine in gene therapy field. In this review, the therapeutic application of CRISPR delivery and the translational potential of gene editing was firstly discussed. Critical obstacles for the delivery of CRISPR system in vivo and shortcomings of CRISPR system itself were also analyzed. Given that intelligent nanoparticles have demonstrated great potential on the delivery of CRISPR system, here we mainly focused on stimuli-responsive nanocarriers. We also summarized various strategies for CIRSPR-Cas9 system delivered by intelligent nanocarriers which would respond to different endogenous and exogenous signal stimulus. Moreover, new genome editors mediated by nanotherapeutic vectors for gene therapy were also discussed. Finally, we discussed future prospects of genome editing for existing nanocarriers in clinical settings.
Résumé
Acquired immune deficiency syndrome (AIDS) is a worldwide epidemic caused by human immunodeficiency virus (HIV) infection. Newer medicines for eliminating the viral reservoir and eradicating the virus are urgently needed. Attempts to locate relatively safe and non-toxic medications from natural resources are ongoing now. Natural-product-based antiviral candidates have been exploited to a limited extent. However, antiviral research is inadequate to counteract for the resistant patterns. Plant-derived bioactive compounds hold promise as powerful pharmacophore scaffolds, which have shown anti-HIV potential. This review focuses on a consideration of the virus, various possible HIV-controlling methods and the recent progress in alternative natural compounds with anti-HIV activity, with a particular emphasis on recent results from natural sources of anti-HIV agents. Please cite this article as: Mandhata CP, Sahoo CR, Padhy RN. A comprehensive overview on the role of phytocompounds in human immunodeficiency virus treatment. J Integr Med. 2023; 21(4):332-353.
Sujets)
Humains , VIH (Virus de l'Immunodéficience Humaine) , Infections à VIH/traitement médicamenteux , Agents antiVIH/usage thérapeutiqueRésumé
Vascular endothelial growth factor (VEGF) is a multifunctional factor that promotes blood vessel formation and increases vascular permeability. Its abnormal elevation plays a key role in common retinal diseases such as wet age-related macular degeneration and diabetic macular edema. Anti-VEGF therapy can inhibit angiogenesis, reduce vascular leakage and edema, thereby delaying disease progression and stabilizing or improving vision. Currently, the clinical application of anti-VEGF drugs has achieved satisfactory therapeutic effects, but there are also issues such as high injection frequency, heavy economy burden, potential systemic side effects, and non-responsiveness. To address these issues, current research and development mainly aim on biosimilars, multi-target drugs, drug delivery systems, oral anti-VEGF drugs, and gene therapy. Some drugs have shown great potential and are expected to turn over a new leaf for anti-VEGF treatment in ophthalmology.