The core pathological feature of Parkinson's disease(PD)is the abnormal aggregation of α-synuclein and the result ing neuronal damage.α-Synuclein exhibits toxic effects when it forms oligomers or fibrils,leading to neuronal death via multiple pathways,including mitochondrial dysfunction,impaired vesicular trafficking,dopamine auto-oxidation,and neuroinflammation.In addition,α-synuclein can propagate between cells via exosomes,endocytosis/exocytosis,tunneling nanotubes,or vagal nerve axonal transport,creating a cascade of pathological effects.Animal models of PD that recapitulate the key pathological hallmark of α-synuclein accumulation are indispensable tools for elucidating disease mechanisms and developing novel therapeutic interventions.To date,various strategies,including transgenic techniques,bacterial artificial chromosome(BAC)-mediated expression,viral vector-mediated overexpression,and gene editing,have been employed to develop α-synuclein overexpression animal models.These models have significantly advanced our exploration of the relationship between PD and α-synuclein.This systematic review considers the structure and function of α-synuclein,its mechanisms of toxicity,intercellular propagation pathways,animal models of overexpression,and potential therapeutic targets based on its pathogenic mechanisms.

The core pathological feature of Parkinson's disease(PD)is the abnormal aggregation of α-synuclein and the result ing neuronal damage.α-Synuclein exhibits toxic effects when it forms oligomers or fibrils,leading to neuronal death via multiple pathways,including mitochondrial dysfunction,impaired vesicular trafficking,dopamine auto-oxidation,and neuroinflammation.In addition,α-synuclein can propagate between cells via exosomes,endocytosis/exocytosis,tunneling nanotubes,or vagal nerve axonal transport,creating a cascade of pathological effects.Animal models of PD that recapitulate the key pathological hallmark of α-synuclein accumulation are indispensable tools for elucidating disease mechanisms and developing novel therapeutic interventions.To date,various strategies,including transgenic techniques,bacterial artificial chromosome(BAC)-mediated expression,viral vector-mediated overexpression,and gene editing,have been employed to develop α-synuclein overexpression animal models.These models have significantly advanced our exploration of the relationship between PD and α-synuclein.This systematic review considers the structure and function of α-synuclein,its mechanisms of toxicity,intercellular propagation pathways,animal models of overexpression,and potential therapeutic targets based on its pathogenic mechanisms.

Coronavirus is the largest RNA virus with known genome so far,among which porcine coronavirus is an important pathogen causing acute diarrhea in piglets.Due to its highly mutable RNA nature,this virus poses a substantial challenge for disease prevention and control,leading to substantial annual economic losses within China's swine industry.The analysis of the mechanism of RNA synthesis of coronaviruses is helpful for understanding the genetic variation of coronaviruses and screening antiviral drugs.At present,more in-depth studies mainly focus on Murine coronavir-us(MHV)and human Severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).In order to investigate the replication mechanism of porcine coronaviruses,this article takes MHV,SARS-CoV-2 and other coronaviruses as references to summarises the mechanism of regulating viral rep-lication in the non-coding region of porcine coronaviruses such as Porcine epidemic diarrhea virus(PEDV),Transmissible gastroenteritis virus(TGEV),Porcine deltacoronavirus(PDCoV),and Swine acute diarrhea syndrome coronavirus(SADS-CoV).Placed a specific emphasis on the func-tional roles of conserved motifs and secondary structures within the 5'UTR in facilitating viral rep-lication,elucidated how conserved structures in the 3'UTR regulate the same process.The signifi-cance of the interaction between the non-coding region of the virus and the host were discussed,and variations in the viral 5'UTR and 3'UTR were scrutinized,thereby establishing a solid theoret-ical foundation for the development of antiviral drugs that target UTRs and high titer vaccine can-didate strains.

Coronavirus is the largest RNA virus with known genome so far,among which porcine coronavirus is an important pathogen causing acute diarrhea in piglets.Due to its highly mutable RNA nature,this virus poses a substantial challenge for disease prevention and control,leading to substantial annual economic losses within China's swine industry.The analysis of the mechanism of RNA synthesis of coronaviruses is helpful for understanding the genetic variation of coronaviruses and screening antiviral drugs.At present,more in-depth studies mainly focus on Murine coronavir-us(MHV)and human Severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).In order to investigate the replication mechanism of porcine coronaviruses,this article takes MHV,SARS-CoV-2 and other coronaviruses as references to summarises the mechanism of regulating viral rep-lication in the non-coding region of porcine coronaviruses such as Porcine epidemic diarrhea virus(PEDV),Transmissible gastroenteritis virus(TGEV),Porcine deltacoronavirus(PDCoV),and Swine acute diarrhea syndrome coronavirus(SADS-CoV).Placed a specific emphasis on the func-tional roles of conserved motifs and secondary structures within the 5'UTR in facilitating viral rep-lication,elucidated how conserved structures in the 3'UTR regulate the same process.The signifi-cance of the interaction between the non-coding region of the virus and the host were discussed,and variations in the viral 5'UTR and 3'UTR were scrutinized,thereby establishing a solid theoret-ical foundation for the development of antiviral drugs that target UTRs and high titer vaccine can-didate strains.

Coronary artery calcifications (CAC) is an independent risk factor for cardiovascular disease (CVD). It has been revealed that this condition can be automatically quantified through computerize tomographic (CT) scan contained in radiotherapy plan for patients with breast cancer, with which, physicians can identify the patients with increased risk of CVD after radiotherapy prematurely and take intervention measures in advance. In this article, the current literature and research progress on the correlation between CAC and cardiotoxicity in patients with breast cancer after radiotherapy were reviewed, expecting to provide a strategy to reduce the CVD risk in patients with breast cancer after radiotherapy.

OBJECTIVE To study the in vitro transdermal characteristics of Tibetan new drugs hereinafter referred to as Zhengrutie cataplasm, and to evaluate the safety of skin medication by using different species of animals(guinea pigs, New Zealand rabbits). METHODS The improved vertical Franz diffusion cell method was used for in vitro transdermal testand the skin of Bama miniature pig was used as the permeation barrier. The cumulative permeation amount and rate of geniposide methyl ester and 8-O-acetyl geniposide methyl ester, borneol and camphor in the receiving medium were determined by HPLC and GC, respectively, to investigate the in vitro transdermal characteristics of Zhengrutie cataplasm. Buehler test was used to study the sensitization of Zhengrutie cataplasm on guinea pig skin. Observed the skin irritation after single or multiple application of Zhengrutie cataplasm on intact and damaged skin of New Zealand rabbits. RESULTS The cumulative permeation amount of the sum of geniposide methyl ester and 8-O-acetyl geniposide methyl ester, borneol and camphor within 24 h were 14.14, 348.21, 490.97 μg·cm-2, respectively. The cumulative permeation amount were 6.2%, 10.2% and 15.3%, respectively. The average permeation amount were 0.59, 14.51 and 20.46 μg·cm-2·h-1. No allergic reaction to guinea pig skin, no irritation to intact skin of New Zealand rabbits, mild irritation to damaged skin. CONCLUSION The in vitro transdermal performance of Zhengrutie cataplasm is good. The in vitro transdermal process conforms to the zero-order kinetic equation. It has no irritation and sensitization effect on the skin of guinea pigs and New Zealand rabbits. It is safe and reliable for skin external use and has good clinical application value.

Purpose: This study was aimed to investigate long-term survivals and toxicities of early-stage nasopharyngeal carcinoma (NPC) in endemic area, evaluating the role of chemotherapy in stage II patients. Materials and Methods: Totally 187 patients with newly diagnosed NPC and restaged American Joint Committee on Cancer/ International Union Against Cancer 8th T1-2N0-1M0 were retrospectively recruited. All received intensity-modulated radiotherapy (IMRT)±chemotherapy (CT) from 2001 to 2010. Results: With 15.7-year median follow-up, 10-year locoregional recurrence-free survival, distant metastasis-free survival (DMFS), disease-specific survival (DSS), and overall survival (OS) were 93.3%, 93.5%, 92.9% and 88.2%, respectively. Multivariable analyses showed cervical lymph nodes positive and pre-treatment prognostic nutritional index ≥ 52.0 could independently predict DMFS (p=0.036 and p=0.011), DSS (p=0.014 and p=0.026), and OS (p=0.002 and p < 0.001); Charlson comorbidity index < 3 points could predict DSS (p=0.011); age > 45 years (p=0.002) and pre-treatment lactate dehydrogenase ≥ 240 U/L (p < 0.001) predicted OS. No grade 4 late toxicity happened; grade 3 late toxicities included subcutaneous fibrosis (4.3%), deafness or otitis (4.8%), skin dystrophy (2.1%), and xerostomia (1.1%). No differences on survivals were shown between IMRT+CT vs. IMRT alone in stage II patients, even in T2N1M0 (p > 0.05). Unsurprising, patients in IMRT+CT had more acute gastrointestinal reaction, myelosuppression, mucositis, late ear toxicity, and cranial nerve injury (all p < 0.05) than IMRT alone group. Conclusion Superior tumor control and satisfying long-term outcomes could be achieved with IMRT in early-stage NPC with mild late toxicities. As CT would bring more toxicities, it should be carefully performed to stage II patients.

Chondroma/surgery* ; Humans ; Liver ; Soft Tissue Neoplasms/surgery*

Objective To explore and analyze the risk factors of type 2 diabetes with kidney disease in Nanchong, Sichuan. Methods A retrospective analysis of 192 cases of type 2diabetic nephropathy (study group) and 224 cases of simple type 2 diabetes (control group) in Nanchong area was conducted. The general data and laboratory test results of the two groups were compared, and logistic regression analysis was used to explore the risk factors. Results In this study, there were a total of 353 patients with type 2diabetes complicated with kidney disease, and the incidence rate was 13.46%. The proportion of smoking and drinking, BMI, fasting blood glucose, glycosylated hemoglobin, total cholesterol, creatinine and blood uric acid in the diabetic nephropathy group were higher than those in the simple diabetes group. The course of disease in the diabetic nephropathy group was longer than that in the simple diabetes group. Course of diabetes, smoking-history, BMI, glycosylated hemoglobin, total cholesterol, and serum uric acid were independent risk factors for type 2 diabetic kidney disease. Conclusion The occurrence and development of diabetic kidney disease is the result of the interaction of multiple factors such as the disease course, smoking, obesity, poor blood glucose control, total cholesterol and serum uric acid. Early detection and control of risk factors can delay the progression of diabetic kidney disease.

Tetracarbon organic acids are important platform chemicals that are widely used in the food, chemical, medicine, material industries and agriculture. Compared with the traditional petrochemical process, the production of tetracarbon organic acids by microbial fermentation is more promising due to milder reaction conditions, greener process and better environmental compatibility. This review summarizes the biosynthetic pathways and metabolic mechanisms for the production of tetracarbon organic acids, and illustrates recent advances, challenges, and future perspectives in the production of tetracarbon organic acids by naturally selected or purposefully engineered strains.
Acids ; Biosynthetic Pathways ; Fermentation ; Metabolic Engineering ; Organic Chemicals