Diabetic retinopathy(DR)is one of the most common and severe microvascular complications in diabetic patients and has become one of the leading causes of blindness worldwide. With the continuous rise in the prevalence of diabetes, in-depth exploration of the pathogenesis of DR and effective intervention measures is of great clinical significance. The mechanistic target of rapamycin(mTOR), as a protein kinase, is widely involved in cellular processes such as growth, metabolism, and autophagy. Research indicates that the mTOR signaling pathway plays a crucial regulatory role in the pathological progression of DR, and its abnormal activity can disrupt retinal cell autophagy function, thereby accelerating cellular damage and disease progression. Autophagy, as an important regulatory mechanism for cellular homeostasis, maintains cellular functional balance by clearing damaged organelles and protein aggregates. This article provides a systematic review of the structural and functional aspects of the mTOR signaling pathway, the molecular regulatory mechanisms of autophagy, and their roles in retinal pathological changes. By summarizing current research findings, the article aims to clarify the key regulatory role of the mTOR-autophagy axis in DR, providing theoretical support for elucidating the molecular pathogenesis of DR and offering potential targets and research directions for developing novel targeted therapeutic strategies, thereby holding significant scientific and clinical value.

Diabetic retinopathy(DR)is one of the common causes of visual impairment and blindness in adults, which is caused by various pathogenesis. Although the mechanism of DR has not been elucidated yet, the destruction of blood-retinal barrier is a key process. As a highly endothelial-specific factor in promoting the growth of vascular endothelial cell, vascular endothelial growth factor(VEGF)plays a crucial role in the formation of pathological retinal neovascularization and the destruction of blood-retinal barrier. Therefore, a comprehensive understanding of the etiology and pathogenesis of blood-retinal barrier damage promoted by VEGF is critical for exploring the pathogenesis of DR. In this study, the underlying relationship between VEGF and the mechanism of blood-retinal barrier damage, including retinal vascular endothelial cell permeability, vascular inflammatory response, apoptosis, oxidative stress, mitochondrial damage and endoplasmic reticulum stress, with a view to providing a reference for the study in VEGF in the pathogenesis of blood-retinal barrier damage in DR.

Neovascular age-related macular degeneration (nAMD) is one of the main causes of visual impairment in middle-aged and elderly people,and the incidence of this disease is rising in our country.The imbalance of vascular endothelial growth factor (VEGF) is the main cause of nAMD.In addition,various growth factors other than VEGF,complement system activation,inflammatory factors,autophagy,and many other factors are involved in the pathogenesis of nAMD.Currently,intravitreal injection of anti-VEGF drugs has become the first-line regimen for the treatment of nAMD,but there are still many shortcomings of the current anti-VEGF drugs,such as multiple potential risks of frequent injections,insensitive responses in some patients,and low compliance of the patients,etc.Therefore,the search for novel therapeutic agents has become urgent.This article provides a review of new developments in the study of novel drugs newly marketed and undergoing clinical trials for the treatment of nAMD,with the aim of seeking longer-lasting and better-acting therapeutic regimens,as well as exploring new therapeutic targets,to further inform the advancement of innovation and development of therapeutic strategies for nAMD.

Objective To investigate the relationship between Notch1 and autophagy under high glucose conditions and to explore the effects of Notch1 inhibitor DAPT and autophagy inhibitor 3-MA on human retinal pigment epithelial cells cultured in high glucose conditions.Methods Via preliminary experiment,25 mmol·L-1 glucose was used as the high glucose culture medium of adult retinal pigment epithelial(ARPE)-19 cells,and 5 mmol·L-1 3-MA was adopted as the au-tophagy inhibitor.ARPE-19 cells cultured in vitro were randomly divided into four groups:control group(treated with 5 mmol·L-1 glucose for 48 h),high glucose group(treated with 25 mmol·L-1 glucose for 48 h),high glucose+DAPT group(treated with 40 μmol·L-1 DAPT for 2 h and then 25 mmol·L-1 glucose for 48 h),and high glucose+3-MA group(treated with 5 mmol·L-1 3-MA for 2 h and then 25 mmol·L-1 glucose for 48 h).A transmission electron microscope was used to observe the ultrastructure of cells in each group.Cell proliferation and migration were observed using Cell Counting Kit-8 and scratch assays.Western blot was used to detect the protein expression levels of Notch1 and autophagy-related proteins LC3 and Beclin1.Reverse transcription-polymerase chain reaction was used to measure the relative messenger ri-bonucleic acid(mRNA)expression levels of Notch1,LC3 and Beclin1 of cells in each group.Results Transmission elec-tron microscope showed that cells in the control group had normal structures,with round or oval nuclei and a few autopha-gosomes.In the high glucose group,cells exhibited slightly obvious injury,with uneven cytoplasm and numerous autolyso-somes.Compared to the control group,ARPE-19 cells in the high glucose group had increased proliferation and migration abilities,and higher mRNA and protein expression levels of Notch1,LC3 and Beclin1(all P＜0.05).Compared to the high glucose group,ARPE-19 cells in the high glucose+DAPT group showed decreased proliferation and migration abilities,and lower mRNA and protein expression levels of Notch1,LC3 and Beclin1(all P＜0.05).The high glucose+3-MA group showed reduced proliferation and migration abilities,as well as decreased mRNA and protein expression levels of LC3 and Beclin1(all P＜0.05)compared to the high glucose group.Conclusion High glucose can activate Notch1 and the auto-phagy process,promoting the proliferation of ARPE-19 cells.In the high glucose+DAPT group and high glucose+3-MA group,the autophagy process is inhibited to a certain extent,thereby restraining cell proliferation.

Objective To investigate if Lycium barbarum polysaccharide(LBP)could inhibit the high glucose-in-duced human retinal microvascular endothelial cell(HRMEC)injury by regulating the NOD-like receptor family pyrin do-main containing protein 3(NLRP3)/Caspase-1 pyroptosis pathway.Methods HRMECs cultured in vitro were randomly divided into the control group(5.5 mmol·L-1 glucose),the high glucose group(55.5 mmol·L-1 glucose),the low LBP group(55.5 mmol·L-1 glucose+100 mg·L-1 LBP),the medium LBP group(55.5 mmol·L-1 glucose+500 mg·L-1 LBP),the high LBP group(55.5 mmol·L-1 glucose+1 000 mg·L-1 LBP),the si-NC group(55.5 mmol·L-1glucose after transfection with 20 pmol·L-1 si-NC)and the si-NLRP3 group(55.5 mmol·L-1 glucose after transfection with 20μmol·L-1si-NLRP3).The Cell Counting Kit-8 was used to detect the proliferation of HRMECs in each group and flow cy-tometry was adopted to measure the pyroptosis of HRMECs in each group.The reverse transcription-polymerase chain reac-tion was used to detect the relative messenger ribonucleic acid(mRNA)expression levels of NLRP3,Caspase-1,nuclear factor(NF)-κB,Gasdermin-D(GSDMD)and vascular endothelial growth factor(VEGF)in the HRMECs of each group,Western blot was adopted to detect the relative protein expression levels of HRMEC pyroptosis-related NLRP3,Caspase-1,NF-κB,GSDMD and VEGF in each group,and enzyme-linked immunosorbent assay was used to detect the interleukin(IL)-1β and IL-18 expression levels in downstream pyroptosis in the HRMEC supernatant of each group.Results Com-pared with the control group,the proliferation rate of HRMECs decreased,the pyroptosis rate increased,the relative mR-NA and protein expression levels of NLRP3,Caspase-1,NF-κB,GSDMD and VEGF increased,and the expressions of IL-1βand IL-18 increased in the high glucose group(all P＜0.05).Compared with the high glucose group,the proliferation rate of HRMECs increased,the pyroptosis rate decreased,the relative mRNA and protein expression levels of NLRP3,Caspase-1,NF-κB,GSDMD and VEGF decreased,and the expressions of IL-1β and IL-18 decreased in the si-NLRP3 group(all P＜0.05).There were no significant differences in cell proliferation rate,pyroptosis rate,mRNA and protein expression levels of NLRP3,Caspase-1,NF-κB,GSDMD and VEGF,as well as levels of IL-1β and IL-18,in the si-NC group compared with the high glucose group(all P＞0.05).Compared with the high glucose group,the medium LBP group and high LBP group had increased proliferation rates,lower pyroptosis rates,and declined mRNA and protein expression levels of NLRP3,Caspase-1,NF-κB,GSDMD and VEGF as well as expressions of IL-1β and IL-18(all P＜0.05).Compared with the high glucose group,there was no significant difference in the proliferation rate of HRMECs and various protein expression levels in the low LBP group(all P＞0.05),and other indicators were consistent with those in the medium LBP group and high LBP group.Conclusion LBP has a protective effect on HRMEC injury induced by high glucose,can promote cell prolif-eration and inhibit pyroptosis,and its mechanism is related to inhibiting the activation of NLRP3/Caspase-1 signaling path-way and reducing the expression of related inflammatory factors.

Age-related macular degeneration (AMD) is one of the main causes of irreversible vision loss in the elderly worldwide.Its main pathological features are the degeneration of retinal pigment epithelium (RPE) and the irreversible damage or loss of photoreceptor cells.Extracellular vesicles (EVs) are a class of heterogeneous nanovesicles with lipid bilayer membranes, including exosomes, microvesicles and apoptotic bodies, which exert biological effects by transmitting molecules such as RNA and protein.In this review, RPE-derived extracellular vesicles (RPE-EVs) are involved in the regulation of oxidative stress, inflammation, and neovascularization in AMD.RPE-EVs derived Apaf1, HDAC6, miR-494-3p, miR-138-5p, miR-21, miR-543 and miR-302a-3p can be used as candidate molecular targets for the diagnosis and treatment of AMD, but their mechanisms of action have not been elucidated.Due to the unique advantages of high biocompatibility, low immunogenicity, low toxicity, targeting, stability, and specificity of RPE-EVs, it is necessary to further study the role of RPE-EVs in the pathogenesis of AMD, and focus on the role of RPE-EVs in the diagnosis and treatment of AMD, so as to realize the clinical transformation of RPE-EVs, and open up new ways for the diagnosis and treatment of AMD.

Objective:To analyze the clinical manifestations and explore the etiology in a family with congenital aniridia and to analyze the influence of candidate variants on the protein structure.Methods:A pedigree investigation was performed.A Han Chinese family with congenital aniridia of two generations consisting of three members from Henan Province, including one patient diagnosed with congenital aniridia, was identified and studied following their admission to Henan Eye Hospital in June 2023.A thorough medical history was obtained for the patient and their family members.Comprehensive ophthalmologic examinations were conducted, including visual acuity, intraocular pressure, anterior segment photography, color fundus photography, ultrasound biomicroscopy, and optical coherence tomography, etc.Peripheral blood samples were obtained from the family members and whole exome sequencing (WES) was performed on the patient and validated by Sanger sequencing for other members.The pathogenicity and protein structure of newly identified variant sites were analyzed.This study adhered to the Declaration of Helsinki.The study protocol was approved by the Ethics Committee of Henan Eye Hospital (No.HNEECKY-2023[06]).Written informed consent was obtained from each subject.Results:The proband is a 23-year-old male presenting with poor binocular vision, aniridia, corneal degeneration, mild lens opacity, shallow anterior chamber, elevated intraocular pressure, peripheral retinal degeneration, and macular dysplasia.The clinical phenotype of the proband's parents did not show any significant abnormality.WES identified a heterozygous frameshift and nonsense varint c. 734_735del (p.Arg245Asnfs*20) in exon 10 of the PAX6 gene, which consisited of two bases deletion at positions 734 to 735, resulting in the mutation of its arginine at position 245 to asparagine and the early appearance of a termination codon at the next 19 amino acids.The variant had not been identified in the HGMD, Clinvar, 1 000 Genomes, and gnomAD databases.Neither of the proband's parents carried the variant, consistent with the pattern of family co-segregation.Substructural analysis using the SMART tool indicated that the variant is situated within the HOX domain.Amino acid conservation analysis demonstrated that the arginine residue at position 245 in the PAX6 gene is highly conserved across multiple species, including human, house mouse, domestic dog, African clawed frog, and macaque.The variant was classified as pathogenic (PVS1+ PS2+ PM2+ PP3) based on the ACMG standards and guidelines for the interpretation of sequence variants.Protein structure analysis revealed the absence of both the homologous domain and the proline-serine-threonine-rich domain in the PAX6 protein. Conclusions:A novel pathogenic variant, c.734_735del (p.Arg245Asnfs*20), in the PAX6 gene has been identified in a family affected by congenital aniridia.This variant results in the deletion of both the PAX6 protein homology domain and the proline-serine-threonine-rich domain.

Objective:To analyze the change of differential genes and signaling pathways in high glucose induced BV2 cells, and to explore the mechanism of transgelin-2 (TAGLN2) regulating cellular inflammatory response and metabolic process.Methods:An experimental study. The cultured BV2 cells were divided into mannitol treatment (Man) group, glucose treatment (Glu) group, overexpression control Glu treatment (Con) group, overexpression TAGLN2 Glu treatment group, silence control Glu treatment (shCon Glu) group, and silence TAGLN2 Glu treatment (shTAGLN2 Glu) group. Cells in the Man group were cultured in modified Eagle high glucose medium (DMEM) containing 25 mmol/L mannitol and 25 mmol/L glucose, cells in other groups (Glu group, Con Glu group, TAGLN2 Glu group, shCon Glu group and shTAGLN2 Glu group) were cultured in DMEM medium containing 50 mmol/L glucose. After 24 hours of cells culture, transcriptome sequencing of cells in each group were performed using high-throughput sequencing technology, and significantly differentially expressed genes (DEG) were screened. |log 2 (fold change)|≥1 and P≤0.05 were adopted as criteria to screen for DEG. Gene Ontology (GO) function enrichment analysis, Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis and protein-protein interaction network analysis were performed. Real-time polymerase chain reaction (RT-PCR) was used to detect the relative expression level of DEG mRNA. The data between groups were compared by independent sample t-test. Results:When compared with Man group, a total of 517 differentially expressed genes were screened in Glu group, which including 277 up-regulated genes and 240 down-regulated genes. KEGG pathway enrichment analysis showed that the up-regulated genes were significantly enriched in immune system processes such as nuclear factor (NF)-κB signal pathway, Jak-signal transducers and activators of transcription (STAT) signal pathway, while down-regulated genes were significantly enriched in glycosaminoglycan degradation and glyceride metabolic pathway. Compared with Con Glu group, a total of 480 DEG were screened in TAGLN2 Glu group, among which 147 up-regulated and 333 down-regulated genes were detected. Up-regulated genes were significantly enriched in the metabolic processes of fatty acid, glyceride and pyruvate, while down-regulated genes were significantly enriched in immune system processes such as NF-κB signal pathway, Jak-STAT signal pathway and tumor necrosis factor (TNF) signal pathway. Compared with shCon Glu group, a total of 582 DEG were screened in shTAGLN2 Glu group, among which 423 up-regulated and 159 down-regulated genes were detected. Up-regulated DEG were significantly enriched in immune system processes such as TNF signal pathway and chemokine signal pathway, while down-regulated DEG were significantly enriched in pattern recognition receptor signal pathway. RT-PCR results showed that the relative expression levels of DEG mRNA Card11 ( t=13.530), Icos ( t=3.482), Chst3 ( t=6.949), Kynu ( t=5.399), interleukin (IL)-1β ( t=2.960), TNF-α ( t=5.800), IL-6 ( t=3.130), interferon-γ ( t=7.690) and IL-17 ( t=6.530) in the TAGLN2 Glu treatment group were decreased significantly compared with Con Glu group, and the difference was statistically significant. Conclusion:TAGLN2 can inhibit glucose induced microglia inflammation by NF-κB and Jak-STAT signaling pathways, Card11, Icos, Chst3 and Kynu play an important role in the anti-inflammatory process of TAGLN2.

Objective:To observe the efficacy of pars plana vitrectomy (PPV) in the treatment of different types of chorioretinal coloboma with retinal detachment (RD).Methods:A single-center, retrospective clinical study. From April 2021 to March 2023, 24 eyes of 23 patients who were diagnosed as chorioretinal coloboma with RD in Henan Provincial Eye Hospital were included in this study. There were 11 males with 12 eyes and 12 females with 12 eyes. The mean age was (33.3±13.7) years old. Best corrected visual acuity (BCVA), spectral domain optical coherence tomography were performed. The BCVA examination was performed using a international standard logarithmic visual acuity chart, which was converted into logarithm of the minimum angle of resolution (logMAR) visual acuity during statistics. According to the types of chorioretinal coloboma, the affected eyes were divided into the coloboma involved the optic disc group and the coloboma not involved the optic disc group, with 15 eyes and 9 eyes. According to whether the RD containing the coloboma area, the affected eyes were divided into RD containing the coloboma area group and the RD not containing the coloboma area group, with 15 eyes and 9 eyes. All eyes underwent standard pars plana three-channel 25G PPV, retinal laser photocoagulation combined with silicone oil tamponade. The follow-up time after surgery was (19.5±16.3) months. The last follow-up was the time point for efficacy determination. The retinal reattachment, BCVA recovery and postoperative complications were observed. Paired t-test or t test was performed for comparison of quantitative data. Fisher's exact test was performed for comparison of qualitative data. Results:At the last follow-up, retinal reattachment was achieved in 20 eyes (83.3%, 20/24). The logMAR BCVA of the coloboma involved the optic disc group before and after surgery were 1.85±0.62 and 1.71±0.71, the difference was no significant ( t=0.845 , P=0.412). The logMAR BCVA of the coloboma not involved the optic disc group before and after surgery were 1.75±0.45 and 0.84±0.26, the difference was statistically significant ( t=6.153 , P<0.001). The improvement of BCVA in the coloboma not involved the optic disc group was significantly higher than that in the coloboma involved the optic disc group after surgery, with statistically significant differences ( t=3.024 , P=0.006). There was no significant difference in the retinal reattachment rate between the two groups ( P=0.615). There was no significant difference in the retinal reattachment rate between the RD containing the coloboma area group and the RD not containing the coloboma area group ( P=0.259). Postoperative complications included elevated intraocular pressure in five eyes, cataract progression in ten eyes, recurrent RD in two eyes, bullous keratopathy in one eye and band-shaped keratopathy in one eye. Conclusion:PPV combined with silicone oil tamponade is safe and effective in the treatment of chorioretinal coloboma with RD, the improvement of visual acuity in the coloboma not involved the optic disc group is better than that in the coloboma involved the optic disc group after surgery.

The update of the cognition of fundus diseases is inseparable from the rapid development of fundus multimodal imaging. Especially in recent years, the application of wide and ultra-wide fundus photography, ultra-wide fundus fluorescein angiography, indocyanine green angiography, fundus autofluorescence and optical coherence tomography angiography contribute to observe the peripheral retinopathy more directly. The application of adaptive optics and fluorescence lifetime imaging ophthalmoscopy contribute to have a further understanding of fundus diseases at the cellular and metabolic level. Multimodal imageing reflect the pathological characteristics of the diseases from different angles and levels. At the same time, the digitization and intelligence of fundus images are also developing rapidly. However, there are some problems that the ophthalmologists needs to consider further, such as the correctly understanding the use of multimodal imaging, the application of artificial intelligence, and how to sum up from the images.