Intracranial aneurysm circulating exosome-derived LncRNA ATP1A1-AS1 promotes smooth muscle cells phenotype switching and apoptosis.

Exosomal long non-coding RNAs (LncRNAs) play a crucial role in the pathogenesis of cerebrovascular diseases. However, the expression profiles and functional significance of exosomal LncRNAs in intracranial aneurysms (IAs) remain poorly understood. Through high-throughput sequencing, we identified 1303 differentially expressed LncRNAs in the plasma exosomes of patients with IAs and healthy controls. Quantitative real-time polymerase chain reaction (qRT-PCR) verification confirmed the differential expression of LncRNAs, the majority of which aligned with the sequencing results. ATP1A1-AS1 showed the most significant upregulation in the disease group. Importantly, subsequent in vitro experiments validated that ATP1A1-AS1 overexpression induced a phenotype switching in vascular smooth muscle cells, along with promoting apoptosis and upregulating MMP-9 expression, potentially contributing to IAs formation. Furthermore, expanded-sample validation affirmed the high diagnostic value of ATP1A1-AS1. These findings suggest that ATP1A1-AS1 is a potential therapeutic target for inhibiting IAs progression and serves as a valuable clinical diagnostic marker.

Vitamin K: Infection, Inflammation, and Auto-Immunity.

Vitamin K (VK) comprises a group of substances with chlorophyll quinone bioactivity and exists in nature in the form of VK1 and VK2. As its initial recognition originated from the ability to promote blood coagulation, it is known as the coagulation vitamin. However, based on extensive research, VK has shown potential for the prevention and treatment of various diseases. Studies demonstrating the beneficial effects of VK on immunity, antioxidant capacity, intestinal microbiota regulation, epithelial development, and bone protection have drawn growing interest in recent years. This review article focuses on the mechanism of action of VK and its potential preventive and therapeutic effects on infections (eg, asthma, COVID-19), inflammation (eg, in type 2 diabetes mellitus, Alzheimer's disease, Parkinson's disease, cancer, aging, atherosclerosis) and autoimmune disorders (eg, inflammatory bowel disease, type 1 diabetes mellitus, multiple sclerosis, rheumatoid arthritis). In addition, VK-dependent proteins (VKDPs) are another crucial mechanism by which VK exerts anti-inflammatory and immunomodulatory effects. This review explores the potential role of VK in preventing aging, combating neurological abnormalities, and treating diseases such as cancer and diabetes. Although current research appoints VK as a therapeutic tool for practical clinical applications in infections, inflammation, and autoimmune diseases, future research is necessary to elucidate the mechanism of action in more detail and overcome current limitations.

Four pairs of neolignan enantiomers with distinctive isochroman moiety from the fruits of Crataegus pinnatifida and their protective activities against H2O2-induced SH-SY5Y cells.

Four pairs of neolignan enantiomers (±)-1- (±)-4 with a distinctive isochroman moiety, including seven undescribed compounds, were isolated and identified from the fruits of Crataegus pinnatifida. Structural characterization of these compounds was established through comprehensive spectroscopic analyses, as well as quantum chemical calculations of ECD and NMR data. The preliminary bioassay displayed that compounds (+)-2 and (±)-3 exerted protective activities against H2O2-induced human neuroblastoma SH-SY5Y cells compared with the positive control. These bioactive compounds could be potential candidates for further pharmaceutical applications.

The ABI5-dependent down-regulation of mitochondrial ATP synthase OSCP subunit facilitates apple necrotic mosaic virus infection.

Apple necrotic mosaic virus (ApNMV) is associated with apple mosaic disease in China. However, the mechanisms of ApNMV infection, as well as host defence against the virus, are still poorly understood. Mitochondrial ATP synthase plays a fundamental role in the regulation of plant growth and development. However, mitochondrial ATP synthase function in response to virus infection remains to be defined. In the present study, a yeast two-hybrid (Y2H) screening revealed that the apple mitochondrial ATP synthase oligomycin sensitivity-conferring protein (OSCP) subunit (MdATPO) interacts with ApNMV coat protein (CP). It was further verified that overexpression of MdATPO in Nicotiana benthamiana inhibited viral accumulation. In contrast, silencing of NbATPO facilitated viral accumulation, indicating that ATPO plays a defensive role during ApNMV infection. Further investigation demonstrated that ApNMV infection accelerated abscisic acid (ABA) accumulation, and ABA negatively regulated ATPO transcription, which was related to the ability of ABA insensitive 5 (ABI5) to bind to the ABA-responsive elements (ABREs) of the ATPO promoter. Taken together, our results indicated that transcription factor ABI5 negatively regulated ATPO transcription by directly binding to its promoter, leading to the susceptibility of apple and N. benthamiana to ApNMV infection. The current study facilitates a comprehensive understanding of the intricate responses of the host to ApNMV infection.

Systemic immune-inflammation index may predict the acute kidney injury and prognosis in patients with spontaneous cerebral hemorrhage undergoing craniotomy: a single-center retrospective study.

BACKGROUND: The systemic immune-inflammation index (SII) is an emerging prognostic marker of cancer. We aimed to explore the predictive ability of the SII on acute kidney injury (AKI) and prognosis in patients with spontaneous cerebral hemorrhage (SCH) who underwent craniotomy. METHODS: Patients with SCH who underwent craniotomy between 2014 and 2021 were enrolled in this study. The epidemiology and predictive factors for AKI after SCH were analyzed. The prognostic factors for clinical outcomes in patients with SCH and AKI were further investigated. The prognostic factors were then analyzed using a logistic regression model and a receiver operating characteristic curve. RESULTS: In total, 305 patients were enrolled in this study. Of these, 129 (42.3%) patients presented with AKI, and 176 (57.7%) patients were unremarkable. The SII (odds ratio [OR], 1.261; 95% confidence interval [CI], 1.036-1.553; P = 0.020) values and serum uric acid levels (OR, 1.004; 95% CI, 1.001-1.007; P = 0.005) were significant predictors of AKI after SCH craniotomy. The SII cutoff value was 1794.43 (area under the curve [AUC], 0.669; 95% CI, 0.608-0.730; P < 0.001; sensitivity, 65.9%; specificity, 65.1%). Of the patients with AKI, 95 and 34 achieved poor and good outcomes, respectively. SII values (OR, 2.667; 95% CI, 1.167-6.095; P = 0.020), systemic inflammation response index values (OR, 1.529; 95% CI, 1.064-2.198; P = 0.022), and Glasgow Coma Scale (GCS) scores on admission (OR, 0.593; 95% CI, 0.437-0.805; P = 0.001) were significant in the multivariate logistic regression analysis. The cutoff SII value was 2053.51 (AUC, 0.886; 95% CI, 0.827-0.946; P < 0.001; sensitivity, 78.9%; specificity, 88.2%). CONCLUSIONS: The SII may predict AKI in patients with SCH who underwent craniotomy and may also predict the short-term prognosis of these patients.

Relationship between the deep features of the full-scan pathological map of mucinous gastric carcinoma and related genes based on deep learning.

Background: Long-term differential expression of disease-associated genes is a crucial driver of pathological changes in mucinous gastric carcinoma. Therefore, there should be a correlation between depth features extracted from pathology-based full-scan images using deep learning and disease-associated gene expression. This study tried to provides preliminary evidence that long-term differentially expressed (disease-associated) genes lead to subtle changes in disease pathology by exploring their correlation, and offer a new ideas for precise analysis of pathomics and combined analysis of pathomics and genomics. Methods: Full pathological scans, gene sequencing data, and clinical data of patients with mucinous gastric carcinoma were downloaded from TCGA data. The VGG-16 network architecture was used to construct a binary classification model to explore the potential of VGG-16 applications and extract the deep features of the pathology-based full-scan map. Differential gene expression analysis was performed and a protein-protein interaction network was constructed to screen disease-related core genes. Differential, Lasso regression, and extensive correlation analyses were used to screen for valuable deep features. Finally, a correlation analysis was used to determine whether there was a correlation between valuable deep features and disease-related core genes. Result: The accuracy of the binary classification model was 0.775 ± 0.129. A total of 24 disease-related core genes were screened, including ASPM, AURKA, AURKB, BUB1, BUB1B, CCNA2, CCNB1, CCNB2, CDCA8, CDK1, CENPF, DLGAP5, KIF11, KIF20A, KIF2C, KIF4A, MELK, PBK, RRM2, TOP2A, TPX2, TTK, UBE2C, and ZWINT. In addition, differential, Lasso regression, and extensive correlation analyses were used to screen eight valuable deep features, including features 51, 106, 109, 118, 257, 282, 326, and 487. Finally, the results of the correlation analysis suggested that valuable deep features were either positively or negatively correlated with core gene expression. Conclusion: The preliminary results of this study support our hypotheses. Deep learning may be an important bridge for the joint analysis of pathomics and genomics and provides preliminary evidence for long-term abnormal expression of genes leading to subtle changes in pathology.

The coat protein of the ilarvirus prunus necrotic ringspot virus mediates long-distance movement.

The coat protein (CP) of plant viruses generally has multiple functions involving infection, replication, movement and pathogenicity. Functions of the CP of prunus necrotic ringspot virus (PNRSV), the causal agent of several threatening diseases of Prunus fruit trees, are poorly studied. Previously, we identified a novel virus in apple, apple necrotic mosaic virus (ApNMV), which is phylogenetically related to PNRSV and probably associated with apple mosaic disease in China. Full-length cDNA clones of PNRSV and ApNMV were constructed, and both are infectious in cucumber (Cucumis sativus L.), an experimental host. PNRSV exhibited higher systemic infection efficiency with more severe symptoms than ApNMV. Reassortment analysis of genomic RNA segments 1-3 found that RNA3 of PNRSV could enhance the long-distance movement of an ApNMV chimaera in cucumber, indicating the association of RNA3 of PNRSV with viral long-distance movement. Deletion mutagenesis of the PNRSV CP showed that the basic motif from amino acids 38 to 47 was crucial for the CP to maintain the systemic movement of PNRSV. Moreover, we found that arginine residues 41, 43 and 47 codetermine viral long-distance movement. The findings demonstrate that the CP of PNRSV is required for long-distance movement in cucumber, which expands the functions of ilarvirus CPs in systemic infection. For the first time, we identified involvement of Ilarvirus CP protein during long-distance movement.

Construction of Infectious cDNA Clone of Brassica Yellows Virus Isolated from Strawberry and Establishment of TaqMan RT-qPCR.

The natural host range for brassica yellows virus (BrYV) is generally limited to Cruciferae. However, we found that BrYV can naturally infect strawberry. The full-length genome sequences of BrYV-MB (accession No. MZ666129) and BrYV-HY (accession No. ON060762) identified in strawberry from Yantai and Beijing, China, were obtained by high-throughput sequencing (HTS) combined with the RT-PCR and RACE techniques. The complete genome sequences of BrYV-MB and BrYV-HY are 5666 nt and contain six open reading frames (ORFs). The two isolates have the highest nucleotide (nt) sequence identity of 99.0%. The infectious cDNA clone of BrYV-HY was constructed through homologous recombination and used to agroinfiltrate Nicotiana benthamiana and Arabidopsis thaliana. The inoculated leaves of N. benthamiana showed necrotic symptoms after 4 days of inoculation (dpi), and the systematic leaves of A. thaliana exhibited purple symptoms at 14 dpi. To develop a rapid and high-sensitive method for the detection of BrYV, a TaqMan real-time fluorescence quantitative RT-PCR method (TaqMan RT-qPCR) was established. Under optimum reaction conditions, the sensitivity of the detection was as low as 100 fg and approximately 100-fold more sensitive than the conventional RT-PCR, so it can be used in large-scale testing.

Prognosis and immune response of a cuproptosis-related lncRNA signature in low grade glioma.

Cuproptosis is a newly discovered new mechanism of programmed cell death, and its unique pathway to regulate cell death is thought to have a unique role in understanding cancer progression and guiding cancer therapy. However, this regulation has not been studied in low grade glioma (LGG) at present. In this study, data on low grade glioma patients were downloaded from the TCGA database. We screened the genes related to cuproptosis from the published papers and confirmed the lncRNAs related to them. We applied univariate/multivariate, and LASSO regression algorithms, finally identified 11 lncRNAs for constructing prognosis prediction models, and constructed a risk scoring model. The reliability and validity test of the model indicated that the model could well distinguish the prognosis and survival of LGG patients. Furthermore, the analyses of immunotherapy, immune microenvironment, as well as functional enrichment were also performed. Finally, we verified the expression of these six prognostic key lncRNAs using real-time polymerase chain reaction (RT-PCR). In conclusion, this study is the first analysis based on cuproptosis-related lncRNAs in LGG and aims to open up new directions for LGG therapy.

CCL14 exacerbates intraplaque vulnerability by promoting neovascularization in the human carotid plaque.

OBJECTIVE: To examine the role of CCL14 in the neovascularization process and vulnerability progression within carotid plaques by investigating the mechanism of CCL14 regulation of VEGF-A. METHODS: We first performed histological analysis and immunohistochemical staining of human carotid plaque tissue to detect the expression of CCL14, JAK2, STAT3 and VEGF-A. We next examined the protein expression of CCL14, VEGF-A, JAK2, STAT3, and phosphorylation of JAK2 and STAT3 in human carotid atherosclerotic plaques by Western blotting. Finally, we performed in vitro culture of human umbilical vein endothelial cells (HUVEC). In the tube formation assay of HUVEC, we added CCL14 siRNA or VEGF-A siRNA to the culture medium using lentiviral transfection to knock down CCL14 or VEGF-A and grouped them for control assays, and detected the changes in the expression of the above proteins using Western blotting. RESULTS: Histological and Western blotting analysis of human carotid plaque samples showed that the expression of CCL14 and VEGF-A was higher in the vulnerable plaques than in stable plaques. In the in vitro cultures of HUVEC, CCL14 was found to increase the number and length of intercellularly generated tubular structures. CCL14 increases VEGF-A expression via activating JAK2/STAT3 signaling. CONCLUSION: In the human carotid plaques, CCL14 promotes angiogenesis by upregulation of VEGF-A via JAK2/STAT3 pathway and thus drives the progression of carotid plaques vulnerability.

First Report of Leaf Spot on Basella rubra Caused by Fusarium proliferatum in Malaysia.

Basella rubra (family Basellaceae), locally known as 'Remayong Merah', is the edible perennial vine served as leafy vegetable in Malaysia. In May 2021, B. rubra's leaves with circular to subcircular purple spots (ranging from 1-10 mm wide) were collected in Lido (5°56'44.6"N 116°04'46.5"E), Sabah province. The disease severity was about 60% with 20% disease incidence on fifty plants. As disease developed, the spots grew larger and necrosis were formed within the purple spots. Small pieces (5 x 5 mm) of five diseased spots were excised, and then surface sterilized based on Khoo et al. (2022b) before plating on water agar at 25°C. Once obtained the pure cultures from all diseased spots, they were incubated on potato dextrose agar at 25°C. After 7 days, white aerial mycelium with light violet pigmentation on lower side were observed on PDA. Then, the fungi were cultured on Carnation leaf agar (CLA) at 25°C and 12-h light/dark photoperiod for 10 days. Thin-walled slender and slightly curved macroconidia (n= 20) with 3 to 5 septa were ranged from 2.3 to 2.6 µm wide by 26.8 to 44.5 µm long in size. Oval microconidia (n= 20) with no septa were 2 to 2.2 µm wide by 9.5 to 15 µm long in size. Chlamydospores were absent. Monophialids with false head were observed. Isolate Lido and Lido02 were kept in the Laboratory of Genetics, Faculty of Science and Natural Resources, Universiti Malaysia Sabah for public request. Their genomic DNA were extracted from fresh mycelia of isolates based on Khoo et al. (2022a). EF1/EF2, RPB1-Fa/RPB1-G2R and RPB2-5f2/RPB2-7cr (Jiang et al. 2021) were used to amplify the translation elongation factor 1-α (TEF1) region, RNA polymerase largest subunit gene (RPB1) and RNA polymerase second largest subunit gene (RPB2) based on PCR condition in Khoo et al. (2022b). The isolate's sequences were deposited in GenBank as OM048109, OM634654 (TEF1), OM634655, OM634657 (RPB1) and OM634656, OM634658 (RPB2). They were 99 to 100% homology to TEF1 of isolate DPCT0102-2 (LC581453) (657/657 bp), RPB1 of strain ZJ05 (MT560605) (1558/1558 bp) and RPB2 of isolate GR_FP248 (MT305154) (1867/1869 bp) sequences. These sequences were polyphasic identified at the Fusarium MLST (https://fusarium.mycobank.org/), and were more than 99% similarity to Gibberella fujikuroi species complex (NRRL 25200). Gibberella fujikuroi and Fusarium fujikuroi are synonymous with Fusarium proliferatum (Leslie and Summerell 2006). The pathogen was identified as F. proliferatum based on morphological characterization, molecular data and phylogenetic analysis. Two non-wounded leaves of three one-month-old B. rubra seedlings were inoculated with mycelium plug (10 x 10 mm). Additional three B. rubra seedlings received sterile PDA agar plug (10 x 10 mm) to serve as controls. They were incubated in a glasshouse at room temperature 25°C with a relative humidity of 80 to 90%. After 8 days of inoculation, all inoculated leaves exhibited the symptoms as observed in the field, while the controls showed no symptoms, thus confirming the Koch's postulates. The experiment was repeated two more times. The reisolated pathogens were identified as F. proliferatum via PDA macroscopically, CLA microscopically and PCR amplification. F. proliferatum was reported previously causing leaf spot disease on Cymbidium orchids (Wang et al. 2018), tobacco (Li et al. 2017) and tomato (Gao et al. 2017). To our knowledge, this is the first report of F. proliferatum causing leaf spot on B. rubra in Malaysia. Infections of leaves reduce plant vigor and marketability. The identification of leaf spot caused by F. proliferatun will enable plant health authorities and farmers to identify practices to minimize disease on this important crop.

Selection and Validation of Reference Genes for Gene Expression Studies Using Quantitative Real-Time PCR in Prunus Necrotic Ringspot Virus-Infected Cucumis sativus.

Several members of the genus Ilarvirus infect fruit trees and are distributed worldwide. Prunus necrotic ringspot virus (PNRSV) is one of the most prevalent viruses, causing significant losses. Cucumissativus can be infected by several ilarviruses, leading to obvious symptoms, including PNRSV, which suggests that cucumbers could be good hosts for the study of the pathogenesis of ilarviruses. Real-time quantitative PCR is an optimal choice for studying gene expression because of its simplicity and its fast and high sensitivity, while its accuracy is highly dependent on the stability of the reference genes. In this study, we assessed the stability of eleven reference genes with geNorm, NormFinder, ΔCt method, BestKeeper, and the ranking software, RefFinder. The results indicated that the combined use of EF1α and F-BOX was the most accurate normalization method. In addition, the host genes AGO1, AGO4, and RDR6 were selected to test the reliability of the reference genes. This study provides useful information for gene expression analysis during PNRSV infection and will facilitate gene expression studies associated with ilarvirus infection.

Identification of Silencing Suppressor Protein Encoded by Strawberry Mottle Virus.

Strawberry mottle virus (SMoV) is associated with strawberry decline disease, causing losses to fruit yield and quality. In this study, using a screening system that enables detection of both local and systemic plant host (RNA silencing) defense responses, we found that Pro2Glu and P28, encoded by SMoV RNA2 genome, functioned to suppress local and systemic RNA silencing triggered by single- but not double-stranded GFP RNA. Subcellular localization assay revealed that both Pro2Glu and P28 were localized to nucleus and cytoplasm. The deletion of 11 amino acid residues at the C-terminus destabilized Pro2Glu protein, and the disruption of two conserved GW motifs deprived Pro2Glu of ability to suppress RNA silencing. Additionally, SMoV Pro2Glu and P28 enhanced the accumulation of potato virus X (PVX) in Nicotiana benthamiana 22 days post-infiltration, and P28 exacerbated significantly the symptoms of PVX. Collectively, these data indicate that the genome of SMoV RNA2 encodes two suppressors of RNA silencing. This is the first identification of a stramovirus suppressor of RNA silencing.

Downregulation of NF-κB by Shp-1 Alleviates Cerebral Venous Sinus Thrombosis-Induced Brain Edema Via Suppression of AQP4.

Aquaporin 4 (AQP4), a water channel protein, has been well studied in arterial stroke-induced brain edema. However, the role of AQP4 in cerebral venous sinus thrombosis (CVST) has not been reported. Here, we showed that AQP4 expression was increased in the brain of a rat CVST model, whereas inhibition of AQP4 decreased cerebral edema. Subsequent experiments showed that Shp-1 (Src homology 2-containing phosphatase-1) expression and NF-κB phosphorylation were upregulated after CVST. We found that Shp-1 inhibition resulted in enhancement of NF-κB activation and increased AQP4 expression accompanied by aggravated brain edema. We further showed that NF-κB inhibition led to decreased AQP4 expression and subsequent attenuation of brain edema but had no significant effect on Shp-1 expression. These results provide the first evidence suggesting that downregulation of NF-κB by Shp-1 alleviates CVST-induced brain edema through suppression of AQP4.

First report of Colletotrichum siamense Causing Anthracnose on Crinum asiaticum in Malaysia.

Crinum asiaticum (family Amaryllidaceae), locally known as 'Pokok Bakung', is an ornamental medicinal plant grown in Malaysia. It contains chemical compounds used for antimicrobial, antioxidant, antitumor, antiemetic and wound healing (Patel, 2017). In July 2021, 'Pokok Bakung' leaves with anthracnose symptoms were collected from a park of Universiti Malaysia Sabah in the Sabah province. The disease severity was about 100% with 20% incidence. Red spots were primarily found on the leaf surfaces. Anthracnose developed as the disease progressed, and acervuli were observed in the spots. Small pieces of infected leaves (5 x 5 mm) were excised from spot margins, surface sterilized based on Khoo et al. (2022a), placed on potato dextrose agar (PDA) in Petri dishes, which were incubated for 5 days at 25°C in the dark. The colonies formed on the PDA plates were abundant with gray-white fluffy mycelia after 5 days, and the reverse view revealed brown. UMS01, a representative isolate, was used to morphologically and molecularly characterize the fungus. Conidia were one-celled, cylindrical, hyaline, smooth, and blunt at the ends, measuring 13.8 to 16.5 x 3.6 to 6.7 µm (n = 20). Appressoria ranged in size from 7.6 to 9.3 x 5.5 to 6.9 µm (n= 20) and were ovoid to clavate, spherical to irregular in shape and dark brown in color. Genomic DNA was extracted from fresh mycelia of isolate UMS01 based on Khoo et al. (2021) with the addition of mechanical disruption using a micro pestle before heating at 95°C. PCR amplification was performed based on Khoo et al. (2022a) using ITS1/ITS4, CL1C/CL2C, ACT-512F/ACT-783R, CHS-79F/CHS-354R, and GDF1/GDR1 primer pairs to amplify the internal transcribed spacer (ITS) region, calmodulin (CAL), actin (ACT), chitin synthase (CHS-1), and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) (Weir et al. 2012). PCR products with positive amplicons were sent to Apical Scientific Sdn. Bhd. for sequencing. The sequences were deposited in GenBank under accession numbers OK458683 (ITS), OL953033 (CAL), OL953030 (ACT), OL953036 (CHS-1), and OL953039 (GAPDH). Before BLAST, the search set were adjusted to exclude model sequences (XM/XP) and the uncultured/environmental sample sequences, and limit to sequences from type material. They were 99-100% similar to the Colletotrichum siamense ITS (JX010171), CAL (JX009714), ACT (FJ907423) and CHS-1 (JX009865), and Colletotrichum changpingense GAPDH (MZ664048) type sequences. The GAPDH marker did not reliably resolve the relationships within the C. gloeosporioides complex (Vieira et al. 2020). Phylogenetic analysis using maximum likelihood based on the combined ITS, CAL, ACT, CHS-1 and GAPDH indicated that the isolate formed a supported clade (100% bootstrap value) to the most related C. siamense. Morphological and molecular characterization matched the description of C. siamense (Huang et al. 2021). Pathogenicity tests were performed to fulfil Koch's postulates by spraying a spore suspension (106 spores/ml) on the leaves of three healthy four-month-old 'Pokok Bakung' plants, while three additional plants were sprayed with water as a control. The inoculated plants were covered with plastics for 48 h at 25°C in the dark. Incubation was performed based on Iftikhar et al. (2022). Symptoms similar to those of the field collection occurred after 6 days post inoculation. No symptoms occurred on the control plants. The experiment was repeated two more times. The reisolated fungal isolates were identical to C. siamense morphologically and molecularly. Previously, C. siamense has been reported to cause anthracnose on Allamanda cathartica (Huang et al. 2021) and avocado (Li et al. 2022) in China, and 'Purple Dream' eggplant in Malaysia (Khoo et al. 2022b). Colletotrichum fructicola has been reported to cause anthracnose on C. asiaticum in China (Qing et al. 2020). To our knowledge, this is the first report of C. siamense causing anthracnose on C. asiaticum in Malaysia. Our findings expand the geographic range of C. siamense and indicate that it could be a potential threat limiting the growth and production of C. asiaticum in Malaysia.

A group I WRKY transcription factor regulates mulberry mosaic dwarf-associated virus-triggered cell death in Nicotiana benthamiana.

Geminiviruses constitute the largest group of known plant viruses and cause devastating losses to a wide range of crops and woody plants globally. Mulberry mosaic dwarf-associated virus (MMDaV), identified from Chinese mulberry trees via small RNA-based deep sequencing, is a divergent monopartite geminivirus belonging to the genus Mulcrilevirus of the family Geminiviridae. Previous studies have shown that plants employ multiple layers of defence to protect themselves from geminivirus infection. The interplay between plant and MMDaV is nevertheless less studied. This study presents evidence that MMDaV triggers hypersensitive response (HR)-mediated antiviral defence in Nicotiana benthamiana plants. We show that the RepA protein of MMDaV is engaged in HR-type cell death induction. We find that the RepA mutants with compromised nuclear localization ability impair their capabilities of cell death induction. Virus-induced gene silencing of the key components of the R protein-mediated signalling pathway reveals that down-regulation of the nucleus-targeting NbWRKY1 alleviates the cell death induction activity of RepA. We further demonstrate that RepA up-regulates the transcript level of NbWRKY1. Furthermore, expression of RepA in N. benthamiana confers plant resistance against two begomoviruses. We propose that plant resistance against RepA can be potentially used to improve plant defence against geminiviruses in crops.

Predictive value of neurophysiological monitoring during posterior communicating artery aneurysm clipping for postoperative neurological deficits.

Objective: This study aimed to evaluate the diagnostic effect of intraoperative neurophysiological monitoring in identifying intraoperative ischemic events and predicting postoperative neurological dysfunction during PCoA aneurysm clipping, as well as to explore the safe duration of intraoperative temporary clipping of the parent artery. Methods: All 71 patients with PCoA aneurysm underwent craniotomy and aneurysm clipping. MEP and SSEP were used for monitoring during operation to evaluate the influence of MEP/SSEP changes on postoperative neurological function. Receiver operating characteristic (ROC) curve analysis was used to calculate optimal duration of intraoperative temporary clipping. Results: Patients with intraoperative MEP/SSEP changes were more likely to develop short-term and long-term neurological deficits than those without MEP/SSEP changes (P < 0.05). From the ROC curve analysis, the safe time from the initiation of temporary clipping during the operation to the early warning of neurophysiological monitoring was 4.5 min (AUC = 0.735, 95%CI 0.5558-0.912). Taking 4.5 min as the dividing line, the incidence of short-term and long-term neurological dysfunction in patients with temporary clipping >4.5 min was significantly higher than that in patients with temporary clipping ≤4.5 min (P = 0.015, P = 0.018). Conclusion: Intraoperative MEP/SSEP changes are significantly associated with postoperative neurological dysfunction in patients with PCoA aneurysms. The optimal duration of temporary clipping of the parent artery during posterior communicating aneurysm clipping was 4.5 min under neurophysiological monitoring.

The Research on the Treatment of Metastatic Skin Cutaneous Melanoma by Huanglian Jiedu Decoction Based on the Analysis of Immune Infiltration Analysis.

OBJECTIVE: To explore the potential mechanism of Huanglian Jiedu Decoction (HJD) treatment and prevention of metastatic Cutaneous Melanoma (CM) occurrence and metastasis based on network pharmacological methods and immune infiltration analysis. METHODS: The GEO database was used to obtain metastatic CM disease targets, the TCMSP database and the HERB database were used to obtain HJD action targets, core genes were screened by protein interaction network, and the potential mechanism of HJD in the treatment of metastatic CM was explored by enrichment analysis, prognostic analysis and immune infiltration analysis. RESULTS: HJD treatment of metastatic CM involved 60 targets, enrichment analysis showed that HJD treatment of metastatic CM involved Chemokine signaling pathway, NF-kappa B signaling pathway, and Fluid shear stress and atherosclerosis, etc. Prognostic analysis revealed that HJD had a certain ability to improve the prognosis of metastatic CM patients. Immune infiltration analysis showed that HJD could inhibit the immune cell infiltration of metastatic CM patients by acting on related targets. CONCLUSIONS: Our study identified the potential mechanism of HJD in the treatment of metastatic CM through network pharmacology, and revealed the mechanism of HJD in the prevention of Skin Cutaneous Melanoma metastasis through immune infiltration analysis and prognostic analysis.

RNA-dependent RNA polymerase 1 delays the accumulation of viroids in infected plants.

RNA-dependent RNA polymerase 1 (RDR1) is essential for plant antiviral defence, but its role in plant defence against viroid infection remains unknown. The present study aimed to identify the function and mechanism of RDR1 in plant resistance to viroid infection. Overexpression of Nicotiana tabacum RDR1 (NtRDR1) delayed the accumulation of potato spindle tuber viroid (PSTVd) genomic RNA and PSTVd-derived small RNA (sRNA) in Nicotiana benthamiana plants at the early invasion stage, but not in the late stage of infection. Conversely, virus-induced gene silencing of tomato RDR1 (SlRDR1a) increased the susceptibility to PSTVd infection (increased viroid accumulation). Salicylic acid (SA) pretreatment induced SlRDR1a expression and enhanced the defence against PSTVd infection in tomato plants. Our study demonstrated that RDR1 is involved in SA-mediated defence and restricts the early systemic invasion by PSTVd in plants. The decreased PSTVd accumulation in N. benthamiana was not caused by efficient accumulation of PSTVd sRNAs. These results deepen our understanding of the mechanism of RDR1 in plant defence responses to viroid attack.