Digital Strategies Supporting Social Network Approaches to HIV Testing: A Scoping Review.

PURPOSE OF REVIEW: This review captured how digital strategies support social network approaches to promote HIV testing. RECENT FINDING: Overall, 29 studies were identified by searching PubMed and Embase for studies published up to June 2023. Existing studies revealed three types of digital strategies (social media (n = 28), online information channels (n = 4), and multifunctional digital platforms (n = 4)) split into four major modes of digital strategy-supported social-network-based HIV testing promotion: 1) Online outreach and recruiting, 2) gathering and identifying key populations for HIV testing, 3) communicating and disseminating online HIV testing health interventions, and 4) assisting and facilitating HIV testing uptake and distribution. Social network approaches supported by digital strategies yielded advantages in HIV testing education and distribution, which increases HIV testing coverage among key populations. Studies are needed on how to facilitate the use of digital strategies for social network-based HIV testing, as well as how to integrate them with existing HIV testing approaches.

WTAP-mediated abnormal m6A modification promotes cancer progression by remodeling the tumor microenvironment: bibliometric and database analyses.

Background: Wilms' tumor 1 associated protein (WTAP) is an essential component of the m6A methyltransferase complex. The research on WTAP has been continuously developed and promoted in recent years. It is needed to make systematic specific bibliometric and database analyses on WTAP, to identify the cooperation and impact of authors, countries, institutions and journals, to evaluate the knowledge base and find the hotspot trends, and to detect the emerging topics regarding WTAP research. Methods: The related articles and reviews of WTAP in the Web of Science Core Collection from January 1999 to June 2022 were retrieved, and CiteSpace and VOSviewer were used to perform bibliometric and knowledge-map analyses. Multiple databases were used to explore the expression level of WTAP in pan-cancers and its correlation with prognosis and immune infiltration. Results: In recent years, the number of publications on WTAP research has increased rapidly. Among the journals publishing WTAP research, Frontiers in Cell and Developmental Biology had the most papers, while Nature papers were most cited. The country with the highest number of publications on WTAP was China, and China Medical University was the institution with the most publications. The most prominent author was Haruo Sugiyama from Japan. Four main aspects of WTAP research included m6A modification, tumor association, cancer therapy, and regulatory mechanisms. The research frontiers and hotspots were m6A modification, methyltransferase, demethylation, tumor microenvironment (TME), and immunotherapy. Bioinformatics analysis showed that the expression of WTAP was up-regulated in a variety of tumors and closely related to TME and survival prognosis. Conclusions: From the bibliometric and database analyses on the researches on WTAP, it is suggested that up-regulated WTAP in cancers may promote cancer progression by mediating abnormal m6A modifications to reshape the TME, thereby affecting the survival prognosis of the patients. The information would provide helpful references for scholars focusing on WTAP and provide new insights for WTAP as a prognostic evaluation and immunotherapy for tumors in the future.

First Report of Tobacco Mosaic Virus Infecting Anisomeles indica (L.) Kuntze in China.

Anisomeles indica (L.) Kuntze is a perennial erect herb that belongs to the genus Epimeredi, family Labiatae (Hsieh et al., 2008). This herb is distributed in several southern provinces such as Yunnan, Sichuan and Guizhou in China, and it is also exported to Southeast Asian countries such as Singapore and Malaysia (Li., 2010; Yao et al., 2019). Due to its market potential and broad development prospects, the herb has been cultivated in Yunnan. In August 2021, virus-like symptoms on leaves, including shrinking, mosaic, and yellow mottling(Fig S1. A) appeared on approximately 80% of A. indica in the experimental fields of the Kunming Institute of Botany, Chinese Academy of Science, in Kunming, Yunnan. To unveil the possible viral agents associated with the disease symptoms, leaf samples were collected from 5 plants for transmission electron microscopy (TEM) analysis using negative staining (Zhang et al., 2016). Rhabditiform-shaped particles around 300 × 18 nm (Fig S1. C) were observed, which resemble those of tobamoviruses. To identify the exact virus, total RNA was extracted from the 20 leaf samples using the RNA-easy Isolation Reagent (Vazyme, Nanjing, China), followed by reverse transcription (RT)-PCR with a degenerate tobamovirus primer pair (Li et al., 2014). A 480-bp amplicon was obtained from each sample and cloned into the pMD18-T vector for Sanger sequencing (Takara, Dalian, China). BLASTn-analysis revealed that the 20 amplicons were identical and shared 100% nucleotide sequence identity with tobacco mosaic virus (TMV) isolate Bei Cang Zhu from Atractylodes lancea (acc. no. KU198186) One sequence was deposited in the GenBank under the accession number OK489807. ELISA testing with TMV-specific antibody (Agdia, USA) produced positive results for all of the 20 leaf samples. In order to understand the difference between TMV isolates from A. indica and those form other host plants, the sequences of movement protein (MP, 807 bp) and RNA-dependent RNA polymerase (RdRp, 3351 bp) of TMV were also obtained from one of the TMV infected samples using the target gene special primers (Tab. S1), and submitted to GenBank under the accession number OM3662406 (MP) and OM366242 (RdRp). BLASTn-analysis revealed that the amplicon of MP shared 97.75% nucleotide sequence identity with TMV isolate Henan 9-2-2017 from sweet potato (MN186255.1) and RdRp shared 97.43% nucleotide sequence identity with TMV isolate SXFQ from Solanum lycopersicum (JX993906.1). Phylogenetic analysis indicated that the isolate of A. indica grouped with several TMV isolates (e.g., tomato, AF103779.1 and tobacco, HE818449.1) from Northern China. The virus was successfully transmitted onto healthy A.indica plants (n = 5) upon mechanical inoculation as the plants not only developed foliar distortion symptoms but also tested positive for TMV by RT-PCR with the CP-specific primers (Tab. S1). Taken together, our results demonstrated that the diseased A. indica plants were infected with TMV. To our knowledge, this is the first report of TMV infected A. indica (L.) Kuntze in China. Symptomatic phenotype-based field surveys on some plantations in Yunnan Province indicated that the disease incidence ranged from 70% to 90%, resulting in significant loss of production of A. indica. It is necessary to monitor the viruses in the fields and find effective methods to protect TMV in the A. indica (L.) Kuntze industry.