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摘要：It has been demonstrated that homocysteine (Hcy) can cause inflammatory diseases. Long noncoding RNAs (lncRNA) and microRNAs (miRNAs) are involved in this biological process, but the mechanism underlying Hcy-induced inflammation remains poorly understood. Here, we found that lncRNA TGFB3-AS1 was highly expressed in macrophages treated with Hcy and the peripheral blood monocytes from cystathionine beta-synthase heterozygous knockout (CBS+/?) mice with a high-methionine diet using lncRNA microarray.Invivoandinvitroexperiments further confirmed that TGFB3-AS1 accelerated Hcy-induced inflammation of macrophages through the Rap1a/wnt signaling pathway. Meanwhile, TGFB3-AS1 interacted with Rap1a and reduced degradation of Rap1a through inhibiting its ubiquitination in macrophages treated with Hcy. Rap1a mediated inflammation induced by Hcy and serves as a direct target of miR-144. Moreover, TGFB3-AS1 regulated miR-144 by binding to pri-miR-144 and inhibiting its maturation, which further regulated Rap1a expression. More importantly, we found that high expression of TGFB3-AS1 was positively correlated with the levels of Hcy and proinflammatory cytokines in serum of healthy individuals and patients with HHcy. Our study revealed a novel mechanism by which TGFB3-AS1 promoted inflammation of macrophages through inhibiting miR-144 maturation to stay miR-144 regulated inhibition of functional Rap1a expression. Keywords:homocysteine, inflammation, lncRNA, miRNA, Rap1a

摘要：Background & AimsRev-erbα represents a powerful transcriptional repressor involved in immunity. However, the regulation, function, and clinical relevance of Rev-erbα inHelicobacter pyloriinfection are presently unknown.MethodsRev-erbα was examined in gastric samples fromHpylori-infected patients and mice. Gastric epithelial cells (GECs) were isolated and infected withHpylorifor Rev-erbα regulation assays. Gastric tissues fromRev-erbα–/–and wild-type (littermate control) mice or these mice adoptively transferred with CD4+T cells fromIFN-γ–/–and wild-type mice, bone marrow chimera mice and mice with invivo pharmacological activation or inhibition of Rev-erbα were examined for bacteria colonization. GECs, CD45+CD11c–Ly6G–CD11b+CD68–myeloid cells and CD4+T cells were isolated, stimulated and/or cultured for Rev-erbα function assays.ResultsRev-erbα was increased in gastric mucosa ofHpylori-infected patients and mice.Hpyloriinduced GECs to express Rev-erbα via the phosphorylatedcagAthat activated ERK signaling pathway to mediate NF-κB directly binding toRev-erbαpromoter, which resulted in increased bacteria colonization within gastric mucosa. Mechanistically, Rev-erbα in GECs not only directly suppressed Reg3b and β-defensin-1 expression, which resulted in impaired bactericidal effects againstHpyloriof these antibacterial proteins invitro and invivo; but also directly inhibited chemokine CCL21 expression, which led to decreased gastric influx of CD45+CD11c–Ly6G–CD11b+CD68–myeloid cells by CCL21-CCR7-dependent migration and, as a direct consequence, reduced bacterial clearing capacity ofHpylori-specific Th1 cell response.ConclusionsOverall, this study identifies a model involving Rev-erbα, which collectively ensures gastric bacterial persistence by suppressing host gene expression required for local innate and adaptive defense againstHpylori. Keywords:Helicobacter pylori, Rev-erbα, Gastric Epithelial Cells, Host Defense

摘要：Atherosclerosis is a serious age‐related disease, which has a tremendous impact on health care globally. Macrophage inflammation is crucial for the initiation and progression of atherosclerosis, and microRNAs (miRNAs) recently have emerged as potent modulators of inflammation, while the underlying mechanisms of its involvement in homocysteine (Hcy)‐mediated macrophage inflammation of atherosclerosis remain largely unknown. Here, we demonstrated that elevated Hcy inhibits the expression of miR‐195‐3p, which in turn enhances IL‐31 expression and thereby causes the secretion of macrophages pro‐inflammatory factors IL‐1β, IL‐6 and TNF‐α and accelerate atherosclerosis. Furthermore, we identified that Hcy can induce DNA hypermethylation and H3K9 deacetylation of miR‐195‐3p promoter due to the increased the binding of DNMT3a and HDAC11 at its promoter. More importantly, Sp1 interacts with DNMT3a suppressed the binding of HDAC11 at miR‐195‐3p promoter and promoted its transcription. In summary, our results revealed a novel mechanism that transcriptional and epigenetic regulation of miR‐195‐3p inhibits macrophage inflammation through targeting IL‐31, which provides a candidate diagnostic marker and novel therapeutic target in cardiovascular diseases induced by Hcy.

摘要：Hematophagous arthropods, such as mosquitoes, naturally carry and transmit hundreds of arboviruses to humans. Blood meal is a predominant physical interface that shapes cross-species communications among humans, bloodsuckers, and arboviruses. Here, we identify a human-blood-derived microRNA, hsa-miR-150-5p, that interferes with a mosquito antiviral system to facilitate flavivirus infection and transmission. hsa-miR-150-5p is acquired with a blood meal into the mosquito hemocoel and persists for a prolonged time there. The agomir of hsa-miR-150-5p enhances, whereas the antagomir represses flaviviral infection in mosquitoes and transmission from mice to mosquitoes. Mechanistic studies indicate that hsa-miR-150-5p hijacks the mosquito Argonaute-1-mediated RNA interference system to suppress the expression of some chymotrypsins with potent virucidal activity. Mosquito chymotrypsins are essential for resisting systemic flavivirus infection in hemocoel tissues. Chymotrypsin homologs potentially targeted by miR-150-5p are also found in other hematophagous arthropods, demonstrating a conserved miR-150-5p-mediated cross-species RNAi mechanism that might determine flaviviral transmissibility in nature.

摘要：γ-interferon-inducible protein-16 (IFI16), a key DNA sensor, triggers downstream STING-dependenttype I interferon(IFN-I) production andantiviral immunity. However, it is still unclear how to negatively regulate IFI16 to avoid excessive IFN-I production and autoimmunity. Here, we find that STING directly interacts with IFI16 and facilitates IFI16 degradation via the ubiquitin-proteasome pathway by recruiting the E3ligaseTRIM21. The 1-pyrin region of IFI16 is responsible for the IFI16-STING interaction, and the first three lysines in the N-terminal region of IFI16 are the key sites that lead to STING-mediated IFI16ubiquitinationand degradation. Compared to wild-type IFI16, a higher level of viral DNA triggered IFN-β and antiviral IFN-stimulated gene expression, and thus less HSV-1 infection, was observed in the cells transfected with IFI16-K3/4/6R, an IFI16 mutant that is resistant to degradation. STING-mediated negative feedback regulation of IFI16 restricts IFN-I overproduction during antiviral immunity to avoid autoimmune diseases.

摘要：Abnormalities of methyl-CpG binding protein 2 (Mecp2) cause neurological disorders with metabolic dysfunction; however, its role in adipose tissues remains unclear. Here, we report upregulated Mecp2 in white adipose tissues (WAT) of obese humans, as well as in obese mice and during in vitro adipogenesis. Normal chow–fed adipocyte-specific Mecp2 knockout mice (Mecp2AdiKO mice) showed a lean phenotype, with downregulated lipogenic genes and upregulated thermogenic genes that were identified using RNA sequencing. Consistently, the deficiency of Mecp2 in adipocytes protected mice from high-fat diet (HFD)–induced obesity and inhibited in vitro adipogenesis. Furthermore,Mecp2AdiKO mice showed increased browning under different stimuli, including cold treatment. Mechanistically, Mecp2 bound to the promoter of secretory leukocyte protease inhibitor (Slpi) and negatively regulated its expression. Knockdown ofSlpiin inguinal WAT ofMecp2AdiKO mice prevented cold-induced browning. Moreover, recombinant SLPI treatment reduced the HFD-induced obesity via enhancing browning. Together, our results suggest a novel non–central nervous system function of Mecp2 in obesity by suppressing browning, at least partially, through regulating adipokine Slpi.

摘要：Metastasis is one of the most common reasons of hepatocellular carcinoma (HCC) death; however, the molecular mechanism underlying HCC metastasis remains incompletely defined. Here we report a new function of Zinc Finger Protein 703 (ZNF703), a member of the NET/NlZ family of zinc finger transcription factors, in promoting hepatocellular carcinoma metastasis. We demonstrated that the overexpression of ZNF703 in human HCC tissue is correlated with tumor metastasis and recurrence, it is also related with the prognosis and survival rate of patients. ZNF703 overexpression promotes HCC progression in vitro and in vivo, whereas ZNF703 knockdown has the opposite effect. In addition, ZNF703 induces epithelialmesenchymal transition (EMT) via directly binding to the CLDN4 promoter and transactivating CLDN4 expression. Downregulation of CLDN4 can attenuate ZNF703-mediated HCC metastasis, whereas upregulation of CLDN4 can reverse the decreased metastasis induced by ZNF703 knockdown. Our data revealed that ZNF703 expression is correlated with CLDN4 level, the overexpression of both ZNF703 and CLDN4 are leaded to poorer prognosis of patients with HCC. Moreover, ZNF703 knockdown can enhance the sensitivity of HCC cell to sorafenib, whereas ZNF703 overexpression has the opposite effect. These results suggested that ZNF703 might be a potential target for cancer therapies and a candidate prognostic biomarker for predicting whether patients with HCC are befitting for sorafenib treatment.

摘要：Broadlyneutralizing antibodies(bNAbs) possess favorable safety, and passive immunization using these can prevent or controlhuman immunodeficiency virus type 1(HIV-1) infection. However, bNAbs generally used formonotherapy(IC80>5μg/mL) have limited breadth and potency and neutralize only 70–90% of all HIV-1 strains. To address the need for broader coverage of the HIV-1 epidemic and enhance the ability of bNAbs to target HIV-1, we fused the single-chain variable antibody fragment (scFv) of bNAbs (PG9, PGT123, or NIH45–46) with full-lengthibalizumab(iMab) in an scFv-monoclonal antibody tandem format to construct bispecific bNAbs (BibNAbs). Additionally, we described the feasibility of BibNAb gene delivery mediated by recombinant adeno-associated virus 8 (rAAV8) for generating long-term expression with a single injection as opposed to short-term passive immunization requiring continuous injections. Our results showed that the expressed BibNAbs targeting two distinct epitopes exhibited neutralizing activity against 20 HIV-1 pseudovirusesin vitro. After injecting a single rAAV8 vector, the expression and neutralizing activity of the BibNAbs in serum were sustained for 24weeks. To the best of our knowledge, very few studies have been published on BibNAb gene delivery using rAAV8 vectors against HIV-1. BibNAb gene delivery using rAAV8 vectors may be promising for passive immunization against HIV-1 infection.

摘要：The RNA binding protein LIN28 directly modulates the stability and translation of target mRNAs independently of Let-7; however, the key downstream targets of LIN28 in this process are largely unknown. Here, we revealed that Hippo signaling effector YAP1 functioned as a key downstream regulator of LIN28 to modulate the cancer stem cell (CSC)-like properties and tumor progressions in triple negative breast cancer (TNBC). LIN28 was overexpressed in BC tissues and cell lines, and significantly correlated with poorer overall survivals in patients. Ectopic LIN28 expression enhanced, while knockdown of LIN28A inhibited the CSC-like properties, cell growth and invasive phenotypes of TNBC cells in vitro and in vivo. Transcriptome analysis demonstrated LIN28 overexpression significantly induced the expressions of YAP1 downstream genes, while reduced the transcripts of YAP1 upstream kinases, such as MST1/2 and LATS1/2, and knockdown of LIN28A exhibited the opposite effects. Furthermore, constitutive activation of YAP1 in LIN28 knockdown TNBC cells could rescue the cell growth and invasive phenotypes in vitro and in vivo. Mechanistically, instead of the dependence of Let-7, LIN28 recruited RNA binding protein MSI2 in a manner dependent on the LIN28 CSD domain and MSI2 RRM domain, to directly induce the mRNA decay of YAP1 upstream kinases, leading to the inhibition of Hippo pathway and activation of YAP1, which eventually gave rise to increased CSC populations, enhanced tumor cell growth and invasive phenotypes. Accordingly, co-upregulations of LIN28 and MSI2 in TNBC tissues were strongly associated with YAP1 protein level and tumor malignance. Taken together, our findings unravel a novel LIN28/MSI2-YAP1 regulatory axis to induce the CSC-like properties, tumor growth and metastasis, independently of Let-7, which may serve as a potential therapeutic strategy for the treatment of a subset of TNBC with LIN28 overexpression.