The lack of axonal regeneration is the major cause of vision loss after optic nerve injury in adult mammals. Activating the PI3K/AKT/mTOR signaling pathway has been shown to enhance the intrinsic growth capacity of ne...The lack of axonal regeneration is the major cause of vision loss after optic nerve injury in adult mammals. Activating the PI3K/AKT/mTOR signaling pathway has been shown to enhance the intrinsic growth capacity of neurons and to facilitate axonal regeneration in the central nervous system after injury. The deletion of the mTOR negative regulator phosphatase and tensin homolog (PTEN) enhances regeneration of adult corticospinal neurons and ganglion cells. In the present study, we used a tyrosine-mutated (Y444F) AAV2 vector to efficiently express a short hairpin RNA (shRNA) for silencing PTEN expression in retinal ganglion cells. We evaluated cell survival and axonal regeneration in a rat model of optic nerve axotomy. The rats received an intravitreal injection of wildtype AAV2 or Y444F mutant AAV2 (both carrying shRNA to PTEN) 4 weeks before optic nerve axotomy. Compared with the wildtype AAV2 vector, the Y444F mutant AAV2 vector enhanced retinal ganglia cell survival and stimulated axonal regeneration to a greater extent 6 weeks after axotomy. Moreover,post-axotomy injection of the Y444F AAV2 vector expressing the shRNA to PTEN rescued ~19% of retinal ganglion cells and induced axons to regenerate near to the optic chiasm. Taken together, our results demonstrate that PTEN knockdown with the Y444F AAV2 vector promotes retinal ganglion cell survival and stimulates long-distance axonal regeneration after optic nerve axotomy. Therefore, the Y444F AAV2 vector might be a promising gene therapy tool for treating optic nerve injury.展开更多
Considering the growing global demand for energy and the need for countries to achieve climate goals,there is an increasing global interest in small modular reactors(SMRs)and their applications.Accident source term an...Considering the growing global demand for energy and the need for countries to achieve climate goals,there is an increasing global interest in small modular reactors(SMRs)and their applications.Accident source term and radiological consequence evaluations of SMRs are key components of nuclear and radiation safety reviews,which affect the site,exclusion area(EAB),and low population zone outer boundaries.Based on the design characteristics of the SMR and accident analysis results,a theoretical model of a whole-core fuel cladding damage accident was constructed to study the radioactivity released into the environment and its consequences.The accident source term and radiation dose calculation models were established to analyze the released amounts of radionuclides and the total effective dose affecting individuals at the site boundary.The results showed that the amount of radionuclides released into the environment after a whole-core fuel cladding damage accident reached 10^(14) Bq,among which the release amount of ^(133)Xe was the largest.The total effective dose at the site boundary 30 days after the accident was 8.65 mSv.The highest total effective dose affecting individuals occurred to the east-north-east.The results of the accident source term and radiological consequence provide technical support for site boundary dose assessments and reviews of SMRs.展开更多
BACKGROUND Transfer RNA(tRNA)-derived small RNAs(tsRNAs)are small fragments that form when tRNAs severe.tRNA halves(tiRNAs),a subcategory of tsRNA,are involved in the oncogenic processes of many tumors.However,their s...BACKGROUND Transfer RNA(tRNA)-derived small RNAs(tsRNAs)are small fragments that form when tRNAs severe.tRNA halves(tiRNAs),a subcategory of tsRNA,are involved in the oncogenic processes of many tumors.However,their specific role in sessile serrated lesions(SSLs),a precancerous lesion often observed in the colon,has not yet been elucidated.AIM To identify SSL-related tiRNAs and their potential role in the development of SSLs and serrated pathway of colorectal cancer(CRC).METHODS Small-RNA sequencing was conducted in paired SSLs and their adjacent normal control(NC)tissues.The expression levels of five SSL-related tiRNAs were validated by q-polymerase chain reaction.Cell counting kit-8 and wound healing assays were performed to detect cell proliferation and migration.The target genes and sites of tiRNA-1:33-Pro-TGG-1(5′tiRNA-Pro-TGG)were predicted by TargetScan and miRanda algorithms.Metabolism-associated and immune-related pathways were analyzed by single-sample gene set enrichment analysis.Functional analyses were performed to establish the roles of 5′tiRNA-Pro-TGG based on the target genes.RESULTS In total,we found 52 upregulated tsRNAs and 28 downregulated tsRNAs in SSLs compared to NC.The expression levels of tiRNA-1:33-Gly-CCC-2,tiRNA-1:33-Pro-TGG-1,and tiRNA-1:34-Thr-TGT-4-M25′tiRNAs were higher in SSLs than those in NC,while that of 5′tiRNA-Pro-TGG was associated with the size of SSLs.It was demonstrated that 5′tiRNAPro-TGG promoted cell proliferation and migration of RKO cell in vitro.Then,heparanase 2(HPSE2)was identified as a potential target gene of 5′tiRNA-Pro-TGG.Its lower expression was associated with a worse prognosis in CRC.Further,lower expression of HPSE2 was observed in SSLs compared to normal controls or conventional adenomas and in BRAF-mutant CRC compared to BRAF-wild CRC.Bioinformatics analyses revealed that its low expression was associated with a low interferonγresponse and also with many metabolic pathways such as riboflavin,retinol,and cytochrome p450 drug metabolism pathways.CONCLUSION tiRNAs may profoundly impact the development of SSLs.5′tiRNA-Pro-TGG potentially promotes the progression of serrated pathway CRC through metabolic and immune pathways by interacting with HPSE2 and regulating its expression in SSLs and BRAF-mutant CRC.In the future,it may be possible to use tiRNAs as novel biomarkers for early diagnosis of SSLs and as potential therapeutic targets in serrated pathway of CRC.展开更多
基金supported by the Research Foundation of Jiangsu Provincial Commission of Health and Family Planning of China,No.H201653the Research Foundation of Changshu Science and Technology Bureau of China,No.CS201616
文摘The lack of axonal regeneration is the major cause of vision loss after optic nerve injury in adult mammals. Activating the PI3K/AKT/mTOR signaling pathway has been shown to enhance the intrinsic growth capacity of neurons and to facilitate axonal regeneration in the central nervous system after injury. The deletion of the mTOR negative regulator phosphatase and tensin homolog (PTEN) enhances regeneration of adult corticospinal neurons and ganglion cells. In the present study, we used a tyrosine-mutated (Y444F) AAV2 vector to efficiently express a short hairpin RNA (shRNA) for silencing PTEN expression in retinal ganglion cells. We evaluated cell survival and axonal regeneration in a rat model of optic nerve axotomy. The rats received an intravitreal injection of wildtype AAV2 or Y444F mutant AAV2 (both carrying shRNA to PTEN) 4 weeks before optic nerve axotomy. Compared with the wildtype AAV2 vector, the Y444F mutant AAV2 vector enhanced retinal ganglia cell survival and stimulated axonal regeneration to a greater extent 6 weeks after axotomy. Moreover,post-axotomy injection of the Y444F AAV2 vector expressing the shRNA to PTEN rescued ~19% of retinal ganglion cells and induced axons to regenerate near to the optic chiasm. Taken together, our results demonstrate that PTEN knockdown with the Y444F AAV2 vector promotes retinal ganglion cell survival and stimulates long-distance axonal regeneration after optic nerve axotomy. Therefore, the Y444F AAV2 vector might be a promising gene therapy tool for treating optic nerve injury.
文摘Considering the growing global demand for energy and the need for countries to achieve climate goals,there is an increasing global interest in small modular reactors(SMRs)and their applications.Accident source term and radiological consequence evaluations of SMRs are key components of nuclear and radiation safety reviews,which affect the site,exclusion area(EAB),and low population zone outer boundaries.Based on the design characteristics of the SMR and accident analysis results,a theoretical model of a whole-core fuel cladding damage accident was constructed to study the radioactivity released into the environment and its consequences.The accident source term and radiation dose calculation models were established to analyze the released amounts of radionuclides and the total effective dose affecting individuals at the site boundary.The results showed that the amount of radionuclides released into the environment after a whole-core fuel cladding damage accident reached 10^(14) Bq,among which the release amount of ^(133)Xe was the largest.The total effective dose at the site boundary 30 days after the accident was 8.65 mSv.The highest total effective dose affecting individuals occurred to the east-north-east.The results of the accident source term and radiological consequence provide technical support for site boundary dose assessments and reviews of SMRs.
基金Supported by the Program of Health and Family Planning Research Project Plan of Pudong New Area Health Committee,No.PW2020D-12.
文摘BACKGROUND Transfer RNA(tRNA)-derived small RNAs(tsRNAs)are small fragments that form when tRNAs severe.tRNA halves(tiRNAs),a subcategory of tsRNA,are involved in the oncogenic processes of many tumors.However,their specific role in sessile serrated lesions(SSLs),a precancerous lesion often observed in the colon,has not yet been elucidated.AIM To identify SSL-related tiRNAs and their potential role in the development of SSLs and serrated pathway of colorectal cancer(CRC).METHODS Small-RNA sequencing was conducted in paired SSLs and their adjacent normal control(NC)tissues.The expression levels of five SSL-related tiRNAs were validated by q-polymerase chain reaction.Cell counting kit-8 and wound healing assays were performed to detect cell proliferation and migration.The target genes and sites of tiRNA-1:33-Pro-TGG-1(5′tiRNA-Pro-TGG)were predicted by TargetScan and miRanda algorithms.Metabolism-associated and immune-related pathways were analyzed by single-sample gene set enrichment analysis.Functional analyses were performed to establish the roles of 5′tiRNA-Pro-TGG based on the target genes.RESULTS In total,we found 52 upregulated tsRNAs and 28 downregulated tsRNAs in SSLs compared to NC.The expression levels of tiRNA-1:33-Gly-CCC-2,tiRNA-1:33-Pro-TGG-1,and tiRNA-1:34-Thr-TGT-4-M25′tiRNAs were higher in SSLs than those in NC,while that of 5′tiRNA-Pro-TGG was associated with the size of SSLs.It was demonstrated that 5′tiRNAPro-TGG promoted cell proliferation and migration of RKO cell in vitro.Then,heparanase 2(HPSE2)was identified as a potential target gene of 5′tiRNA-Pro-TGG.Its lower expression was associated with a worse prognosis in CRC.Further,lower expression of HPSE2 was observed in SSLs compared to normal controls or conventional adenomas and in BRAF-mutant CRC compared to BRAF-wild CRC.Bioinformatics analyses revealed that its low expression was associated with a low interferonγresponse and also with many metabolic pathways such as riboflavin,retinol,and cytochrome p450 drug metabolism pathways.CONCLUSION tiRNAs may profoundly impact the development of SSLs.5′tiRNA-Pro-TGG potentially promotes the progression of serrated pathway CRC through metabolic and immune pathways by interacting with HPSE2 and regulating its expression in SSLs and BRAF-mutant CRC.In the future,it may be possible to use tiRNAs as novel biomarkers for early diagnosis of SSLs and as potential therapeutic targets in serrated pathway of CRC.
