Project description:HCC is the third leading cause of cancer-related deaths worldwide. However, the molecular mechanisms underlying the progression of HCC is still largely elusive. NUDT21 (CFIm25) is an important mediator of 3′ UTR APA and demonstrates a causal relationship between alternative polyadenylation and cancer cell proliferation. Although the function of NUDT21 has been explored in glioblastoma tumor, the functional significance of NUDT21 in solid tumors is not well understood. In this study, we observed that NUDT21 is suppressed in human HCC tissues, compared to adjacent noncancerous tissues. In addition we found that the HCC patients with suppressed NUDT21 are statistically associated with poor outcomes. These observations suggest NUDT21 possibly functions as tumor suppressor in hepatocellular carcinoma (HCC).

Project description:Protein lactylation is a process that is fueled by lactate, generated by the enzyme lactate dehydrogenase (Ldh) from pyruvate. Despite prior research, the precise role of protein lactylation in controlling the identity of mouse embryonic stem cells (ESCs) is still not fully understood. We observed that inhibiting or eliminating Ldha causes a reduction in global protein lactylation in ESCs, and RNA-seq analysis suggests that Ldha inhibition induces a 2-cell-like cell (2CLC) signature in ESCs. To probe the underlying mechanisms, we performed quantitative lactylation proteomics analysis, we discovered that Hdac1, a gene with significant regulatory roles during the 2-cell stage (2C), undergoes lactylation modification. Additionally, we observed that treatment with an Ldh (lactate dehydrogenase) inhibitor can decrease the lactylation levels of Hdac1. Mechanistically, we discovered that Ldha positively regulates the lactylation of Hdac1, promoting its direct binding to zygotic genome activation (ZGA) gene promoters and has stronger deacetylase activity. This leads to the removal of acetyl groups from H3K27 on these loci, effectively suppressing the expression of 2C genes. Our study presents novel evidence supporting protein lactylation's potential as a means of inhibiting the generation of 2CLCs and modulating acetylation activity.

Project description:Protein lactylation is a process that is fueled by lactate, generated by the enzyme lactate dehydrogenase (Ldh) from pyruvate. Despite prior research, the precise role of protein lactylation in controlling the identity of mouse embryonic stem cells (ESCs) is still not fully understood. We observed that inhibiting or eliminating Ldha causes a reduction in global protein lactylation in ESCs, and RNA-seq analysis suggests that Ldha inhibition induces a 2-cell-like cell (2CLC) signature in ESCs. To probe the underlying mechanisms, we performed quantitative lactylation proteomics analysis, we discovered that Hdac1, a gene with significant regulatory roles during the 2-cell stage (2C), undergoes lactylation modification. Additionally, we observed that treatment with an Ldh (lactate dehydrogenase) inhibitor can decrease the lactylation levels of Hdac1. Mechanistically, we discovered that Ldha positively regulates the lactylation of Hdac1, promoting its direct binding to zygotic genome activation (ZGA) gene promoters and has stronger deacetylase activity. This leads to the removal of acetyl groups from H3K27 on these loci, effectively suppressing the expression of 2C genes. Our study presents novel evidence supporting protein lactylation's potential as a means of inhibiting the generation of 2CLCs and modulating acetylation activity.

Project description:Macrophage hyperactivation is a hallmark of inflammatory diseases, yet the role of alternative polyadenylation (APA) in regulating innate immunity remains unclear. In this study, we demonstrate that Nudt21, a crucial RNA-binding component of the APA machinery, is significantly upregulated in various inflammatory settings. Utilizing myeloid-specific Nudt21-deficient mice, we reveal a protective effect of Nudt21 depletion against colitis and severe hyperinflammation, primarily through diminished production of proinflammatory cytokines. Notably, Nudt21 regulates the mRNA stability of key autophagy-related genes by mediating selective 3’UTR polyadenylation in activated macrophages. As a result, Nudt21-deficient macrophages display enhanced autophagic activity, which leads to reduced cytokine secretion.

Project description:NUDT21 lactylation reprograms alternative polyadenylation to promote cuproptosis resistance

Project description:LC3-associated phagocytosis (LAP) is critical in host defense against invading pathogens, but the molecular mechanism for LAP activation is still unclear. Here, we find programmed cell death 6 (PDCD6) as a negative regulator of LAP. PDCD6 deficiency in mice and macrophages induces enhanced bactericidal activity and LAP formation. In parallel, lactate dehydrogenase A (LDHA) activity and lactate production is induced in macrophages challenged with bacteria, Zymosan or Pam3CSK4, while genetic ablation or pharmacological inhibition of LDHA reduces lactate levels and impairs bactericidal activity in vivo and in vitro. Mechanistically, PDCD6 interacts with LDHA to downregulate lactate metabolism, leading to reduced RUBCN lactylation at lysine33 (K33). By contrast, PDCD6-deficiency increases RUBCN lactylation, thereby promotes RUBCN interaction with VPS34, LAP formation, and protective responses. Our results thus suggest a PDCD6-LDHA-lactate-RUBCN axis of innate immunity regulation that may both contribute to protection from infectious diseases and serve as targets for therapeutic development.

Project description:To investigat the role of AARS1 in HGC27 cells treated with lactate, we transfected HGC27 cells with AARS1 siRNA and then treated the cells with 25mM lactate for 24h

Project description:The efficacy of immune checkpoint blockade (ICB) therapy in hepatocellular carcinoma (HCC) patients remains poor. This article aims to uncover the role and mechanism of SRSF10 in HCC immunotherapy. SRSF10 is upregulated in a variety of tumors and is associated with poor prognosis. SRSF10 binds to the 3’UTR region of MYB and enhances the stability of MYB RNA levels. This activation leads to increased transcriptional expression of key enzymes associated with glycolysis, such as GLUT1, HK1, and LDHA, resulting in higher lactate content in tumor cells. The lactate in tumor cells inside can increase histone lactylation so as to upregulated the expression of SRSF10. Besides, the lactate produced by tumors promotes lactylation of the histone H3K18la site upon transport into macrophages, which could activate transcription of M2 macrophage genes and increase protumour macrophage activity, so as to creating a suppressive immune microenvironment. Clinically, SRSF10 can be utilized as a biomarker to assess the resistance to immunotherapy in different types of solid tumors. The pharmacological targeting of SRSF10 with 1C8 has been shown to be effective in both murine and human preclinical models. In conclusion, we prove that the SRSF10/MYB/glycolysis/lactate axis is critical for triggering immune evasion and anti-PD-1 resistance.

Project description:Alternative polyadenylation modulates gene expresion via changing the length of 3'UTR. Among the complexes involving in APA, CFIm complex plays a central role in determining the usage of proximal PAS versus distal one. NUDT21, also named as CFIm25 and CPSF5, is the core component of CFIm complex. To date, except CPSF6 and CPSF7, there are few proteins reported to interact with NUDT21. In this project, the interactome of NUDT21 was identified by IP-MS.

Project description:We previously showed that NUDT21-spanning copy-number variations (CNVs) are associated with intellectual disability (ID), and that NUDT21-encoded CFIm25 regulates the protein levels of at least one dose-sensitive, ID-associated protein: MeCP2 (Gennarino et al., 2015). However, the patients’ CNVs also spanned multiple other genes raising the possibility that loss or gain of these other genes caused their symptoms. To determine if reduced NUDT21 function alone is sufficient to cause disease, we generated Nudt21 heterozygous null mice to mimic the human state of reduced expression. We found that although these mice have 50% reduced Nudt21 mRNA, they only have 30% less of its cognate protein, CFIm25. Despite this partial protein-level compensation, the Nudt21+/- mice have learning deficits and cortical hyperexcitability. Further, to determine the molecular mechanism driving neural dysfunction, we partially inhibited NUDT21 in human embryonic stem cell-derived neurons to reduce CFIm25 by 30%. This reduction in CFIm25 was sufficient to induce misregulated alternative polyadenylation (APA) and protein levels in hundreds of genes, dozens of which are associated with intellectual disability and whose dysregulation is likely contributing to disease symptoms. Altogether, these results indicate that disruption of NUDT21-regulated APA events in the brain can cause intellectual disability.