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Molecular And Cellular Biology[JOURNAL]

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Genetic and Pharmacological Modulation of Cellular Proteostasis Leads to Partial Functional Rescue of Homocystinuria-Causing Cystathionine-Beta Synthase Variants.

Collard R, Majtan T

Mol Cell Biol · 2023 · PMID 38051092 · Full text

Homocystinuria (HCU), an inherited metabolic disorder caused by lack of cystathionine beta-synthase (CBS) activity, is chiefly caused by misfolding of single amino acid residue missense pathogenic variants. Previous stud... Homocystinuria (HCU), an inherited metabolic disorder caused by lack of cystathionine beta-synthase (CBS) activity, is chiefly caused by misfolding of single amino acid residue missense pathogenic variants. Previous studies showed that chemical, pharmacological chaperones or proteasome inhibitors could rescue function of multiple pathogenic CBS variants; however, the underlying mechanisms remain poorly understood. Using Chinese hamster DON fibroblasts devoid of CBS and stably overexpressing human WT or mutant CBS, we showed that expression of pathogenic CBS variant mostly dysregulates gene expression of small heat shock proteins HSPB3 and HSPB8 and members of HSP40 family. Endoplasmic reticulum stress sensor BiP was found upregulated with CBS I278T variant associated with proteasomes suggesting proteotoxic stress and degradation of misfolded CBS. Co-expression of the main effector HSP70 or master regulator HSF1 rescued steady-state levels of CBS I278T and R125Q variants with partial functional rescue of the latter. Pharmacological proteostasis modulators partially rescued expression and activity of CBS R125Q likely due to reduced proteotoxic stress as indicated by decreased BiP levels and promotion of refolding as indicated by induction of HSP70. In conclusion, targeted manipulation of cellular proteostasis may represent a viable therapeutic approach for the permissive pathogenic CBS variants causing HCU.

A PTP1B-Cdk3 Signaling Axis Promotes Cell Cycle Progression of Human Glioblastoma Cells through an Rb-E2F Dependent Pathway.

Villamar-Cruz O, Loza-Mejía MA, Vivar-Sierra A … +10 more , Saldivar-Cerón HI, Patiño-López G, Olguín JE, Terrazas LI, Armas-López L, Ávila-Moreno F, Saha S, Chernoff J, Camacho-Arroyo I, Arias-Romero LE

Mol Cell Biol · 2023 · PMID 38014992 · Full text

PTP1B plays a key role in developing different types of cancer. However, the molecular mechanism underlying this effect is unclear. To identify molecular targets of PTP1B that mediate its role in tumorigenesis, we undert... PTP1B plays a key role in developing different types of cancer. However, the molecular mechanism underlying this effect is unclear. To identify molecular targets of PTP1B that mediate its role in tumorigenesis, we undertook a SILAC-based phosphoproteomic approach, which allowed us to identify Cdk3 as a novel PTP1B substrate. Substrate trapping experiments and docking studies revealed stable interactions between the PTP1B catalytic domain and Cdk3. In addition, we observed that PTP1B dephosphorylates Cdk3 at tyrosine residue 15 in vitro and interacts with it in human glioblastoma cells. Next, we found that pharmacological inhibition of PTP1B or its depletion with siRNA leads to cell cycle arrest with diminished activity of Cdk3, hypophosphorylation of Rb, and the downregulation of E2F target genes Cdk1, Cyclin A, and Cyclin E1. Finally, we observed that the expression of a constitutively active Cdk3 mutant bypasses the requirement of PTP1B for cell cycle progression and expression of E2F target genes. These data delineate a novel signaling pathway from PTP1B to Cdk3 required for efficient cell cycle progression in an Rb-E2F dependent manner in human GB cells.

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Mol Cell Biol · 2023 · PMID 37957946 · Full text

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Mol Cell Biol · 2023 · PMID 37955527 · Full text

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RNA Polymerase II Dependent Crosstalk between H4K16 Deacetylation and H3K56 Acetylation Promotes Transcription of Constitutively Expressed Genes.

Khan P, Singha P, Nag Chaudhuri R

Mol Cell Biol · 2023 · PMID 37937370 · Full text

Nucleosome dynamics in the coding region of a transcriptionally active locus is critical for understanding how RNA polymerase II progresses through the gene body. Histone acetylation and deacetylation critically influenc... Nucleosome dynamics in the coding region of a transcriptionally active locus is critical for understanding how RNA polymerase II progresses through the gene body. Histone acetylation and deacetylation critically influence nucleosome accessibility during DNA metabolic processes like transcription. Effect of such histone modifications is context and residue dependent. Rather than effect of individual histone residues, the network of modifications of several histone residues in combination generates a chromatin landscape that is conducive for transcription. Here we show that in , crosstalk between deacetylation of the H4 N-terminal tail residue H4K16 and acetylation of the H3 core domain residue H3K56, promotes RNA polymerase II progression through the gene body. Results indicate that deacetylation of H4K16 precedes and in turn induces H3K56 acetylation. Effectively, recruitment of Rtt109, the HAT responsible for H3K56 acetylation is essentially dependent on H4K16 deacetylation. In Hos2 deletion strains, where H4K16 deacetylation is abolished, both H3K56 acetylation and RNA polymerase II recruitment gets significantly impaired. Notably, H4K16 deacetylation and H3K56 acetylation are found to be essentially dependent on active transcription. In summary, H4K16 deacetylation promotes H3K56 acetylation and the two modifications together work towards successful functioning of RNA polymerase II during active transcription.

Functional Consequences of Shifting Transcript Boundaries in Glucose Starvation.

Nguyen LAC, Mori M, Yasuda Y … +1 more , Galipon J

Mol Cell Biol · 2023 · PMID 37937348 · Full text

Glucose is a major source of carbon and essential for the survival of many organisms, ranging from yeast to human. A sudden 60-fold reduction of glucose in exponentially growing fission yeast induces transcriptome-wide c... Glucose is a major source of carbon and essential for the survival of many organisms, ranging from yeast to human. A sudden 60-fold reduction of glucose in exponentially growing fission yeast induces transcriptome-wide changes in gene expression. This regulation is multilayered, and the boundaries of transcripts are known to vary, with functional consequences at the protein level. By combining direct RNA sequencing with 5'-CAGE and short-read sequencing, we accurately defined the 5'- and 3'-ends of transcripts that are both poly(A) tailed and 5'-capped in glucose starvation, followed by proteome analysis. Our results confirm previous experimentally validated loci with alternative isoforms and reveal several transcriptome-wide patterns. First, we show that sense-antisense gene pairs are more strongly anticorrelated when a time lag is taken into account. Second, we show that the glucose starvation response initially elicits a shortening of 3'-UTRs and poly(A) tails, followed by a shortening of the 5'-UTRs at later time points. These result in domain gains and losses in proteins involved in the stress response. Finally, the relatively poor overlap both between differentially expressed genes (DEGs), differential transcript usage events (DTUs), and differentially detected proteins (DDPs) highlight the need for further study on post-transcriptional regulation mechanisms in glucose starvation.

A SNAI2/CTCF Interaction is Required for Expression in Rhabdomyosarcoma.

Sreenivas P, Wang L, Wang M … +11 more , Challa A, Modi P, Hensch NR, Gryder B, Chou HC, Zhao XR, Sunkel B, Moreno-Campos R, Khan J, Stanton BZ, Ignatius MS

Mol Cell Biol · 2023 · PMID 37882064 · Full text

Rhabdomyosarcoma (RMS) is a pediatric malignancy of the muscle with characteristics of cells blocked in differentiation. is an oncogene that promotes self-renewal and blocks differentiation in the fusion negative-RMS su... Rhabdomyosarcoma (RMS) is a pediatric malignancy of the muscle with characteristics of cells blocked in differentiation. is an oncogene that promotes self-renewal and blocks differentiation in the fusion negative-RMS sub-type. However, how expression is transcriptionally maintained in tumors is unknown. Analyses of SNAI2 and CTCF chromatin binding and HiC analyses revealed a conserved SNAI2/CTCF overlapping peak downstream of the locus marking a sub-topologically associating domain (TAD) boundary. Deletion of the SNAI2-CTCF peak showed that it is essential for expression and viability of FN-RMS cells. Reintroducing constitutively activated -ΔE in cells with the SNAI2-CTCF peak deleted restored cell-viability. Ablation of SNAI2 using CRISPR/Cas9 reagents resulted in the loss of majority of RD and SMS-CTR FN-RMS cells. However, the few surviving clones that repopulate cultures have recovered . Cells that re-establish expression after SNAI2 ablation are unable to differentiate robustly as SNAI2 shRNA knockdown cells; yet, -ablated cells continued to be exquisitely sensitive to ionizing radiation. Thus, we have uncovered a novel mechanism by which SNAI2 and CTCF maintenance of a sub-TAD boundary promotes rather than represses expression. Further, we demonstrate that SNAI2 suppression of apoptosis post-radiation is independent of / effects on self-renewal and differentiation.

Persistent Acetylation of Histone H3 Lysine 56 Compromises the Activity of DNA Replication Origins.

Tremblay R, Mehrjoo Y, Ahmed O … +6 more , Simoneau A, McQuaid ME, Affar EB, Nislow C, Giaever G, Wurtele H

Mol Cell Biol · 2023 · PMID 37811746 · Full text

In , newly synthesized histones H3 are acetylated on lysine 56 (H3 K56ac) by the Rtt109 acetyltransferase prior to their deposition on nascent DNA behind replication forks. Two deacetylases of the sirtuin family, Hst3 an... In , newly synthesized histones H3 are acetylated on lysine 56 (H3 K56ac) by the Rtt109 acetyltransferase prior to their deposition on nascent DNA behind replication forks. Two deacetylases of the sirtuin family, Hst3 and Hst4, remove H3 K56ac from chromatin after S phase. cells present constitutive H3 K56ac, which sensitizes cells to replicative stress via unclear mechanisms. A chemogenomic screen revealed that heterozygosity sensitizes cells to NAM-induced inhibition of sirtuins. and encode subunits of the Dbf4-dependent kinase (DDK), which activates origins of DNA replication during S phase. We show that (i) cells harboring the or hypomorphic alleles are sensitized to NAM, and that (ii) the sirtuins Sir2, Hst1, Hst3, and Hst4 promote DNA replication in cells. We further demonstrate that Rif1, an inhibitor of DDK-dependent activation of origins, causes DNA damage and replication defects in NAM-treated cells and Δ Δ mutants. cells are shown to display delayed initiation of DNA replication, which is not due to intra-S checkpoint activation but requires Rtt109-dependent H3 K56ac. Our results suggest that constitutive H3 K56ac sensitizes cells to replicative stress in part by negatively influencing the activation of origins of DNA replication.

Mitochondrial Fragmentation Promotes Inflammation Resolution Responses in Macrophages via Histone Lactylation.

Susser LI, Nguyen MA, Geoffrion M … +4 more , Emerton C, Ouimet M, Khacho M, Rayner KJ

Mol Cell Biol · 2023 · PMID 37807652 · Full text

During the inflammatory response, macrophage phenotypes can be broadly classified as pro-inflammatory/classically activated "M1", or pro-resolving/alternatively "M2" macrophages. Although the classification of macrophage... During the inflammatory response, macrophage phenotypes can be broadly classified as pro-inflammatory/classically activated "M1", or pro-resolving/alternatively "M2" macrophages. Although the classification of macrophages is general and assumes there are distinct phenotypes, in reality macrophages exist across a spectrum and must transform from a pro-inflammatory state to a proresolving state following an inflammatory insult. To adapt to changing metabolic needs of the cell, mitochondria undergo fusion and fission, which have important implications for cell fate and function. We hypothesized that mitochondrial fission and fusion directly contribute to macrophage function during the pro-inflammatory and proresolving phases. In the present study, we find that mitochondrial length directly contributes to macrophage phenotype, primarily during the transition from a pro-inflammatory to a proresolving state. Phenocopying the elongated mitochondrial network (by disabling the fission machinery using siRNA) leads to a baseline reduction in the inflammatory marker IL-1β, but a normal inflammatory response to LPS, similar to control macrophages. In contrast, in macrophages with a phenocopied fragmented phenotype (by disabling the fusion machinery using siRNA) there is a heightened inflammatory response to LPS and increased signaling through the ATF4/c-Jun transcriptional axis compared to control macrophages. Importantly, macrophages with a fragmented mitochondrial phenotype show increased expression of proresolving mediator arginase 1 and increased phagocytic capacity. Promoting mitochondrial fragmentation caused an increase in cellular lactate, and an increase in histone lactylation which caused an increase in arginase 1 expression. These studies demonstrate that a fragmented mitochondrial phenotype is critical for the proresolving response in macrophages and specifically drive epigenetic changes via lactylation of histones following an inflammatory insult.

Module 4-Deficient CCN2/Connective Tissue Growth Factor Attenuates the Progression of Renal Fibrosis via Suppression of Focal Adhesion Kinase Phosphorylation in Tubular Epithelial Cells.

Amano H, Inoue T, Kusano T … +3 more , Fukaya D, Kosakai W, Okada H

Mol Cell Biol · 2023 · PMID 37746701 · Full text

CCN2/connective tissue growth factor (CTGF) potentially serves as a therapeutic target for chronic kidney disease. Here we investigated CCN2 module-4, encoded by exon 5, through the generation of exon 5 knockout mice (... CCN2/connective tissue growth factor (CTGF) potentially serves as a therapeutic target for chronic kidney disease. Here we investigated CCN2 module-4, encoded by exon 5, through the generation of exon 5 knockout mice ( mice). To investigate renal fibrosis pathogenesis, mice were employed to model unilateral ureteral obstruction (UUO), unilateral ischemic-reperfusion injury (UIRI), and 5/6 nephrectomy. Interstitial fibrosis was significantly attenuated in the mice in the three models. Furthermore, phosphorylated focal adhesion kinase (FAK) levels in tubular epithelial cells were significantly lower in the kidneys of the UUO- and UIRI- mice than those of the mice. Moreover, CCN2 module 4-mediated renal tubule FAK and promoted fibrosis. These findings indicate that CCN2 module-4-FAK pathway components will serve as therapeutic targets for effectively attenuating renal fibrosis.

Transcription Repression of CRY2 via PER2 Interaction Promotes Adipogenesis.

Li W, Xiong X, Kiperman T … +1 more , Ma K

Mol Cell Biol · 2023 · PMID 37724597 · Full text

The circadian clock is driven by a transcriptional-translational feedback loop, and cryptochrome 2 (CRY2) represses CLOCK/BMAL1-induced transcription activation. Despite the established role of clock in adipogenic regula... The circadian clock is driven by a transcriptional-translational feedback loop, and cryptochrome 2 (CRY2) represses CLOCK/BMAL1-induced transcription activation. Despite the established role of clock in adipogenic regulation, whether the CRY2 repressor activity functions in adipocyte biology remains unclear. Here we identify a critical cysteine residue of CRY2 that mediates interaction with Period 2 (PER2). We further demonstrate that this mechanism is required for repressing circadian clock-controlled Wnt signaling to promote adipogenesis. CRY2 protein is enriched in white adipose depots and robustly induced by adipogenic differentiation. Via site-directed mutagenesis, we identified that a conserved CRY2 cysteine at 432 within the loop interfacing with PER2 mediates heterodimer complex formation that confers transcription repression. C432 mutation disrupted PER2 association without affecting BMAL1 binding, leading to loss of repression of clock transcription activation. In preadipocytes, whereas CRY2 enhanced adipocyte differentiation, the repression-defective C432 mutant suppressed this process. Furthermore, silencing of CRY2 attenuated, while stabilization of CRY2 by KL001 markedly augmented adipocyte maturation. Mechanistically, we show that transcriptional repression of Wnt pathway components underlies CRY2 modulation of adipogenesis. Collectively, our findings elucidate a CRY2-mediated repression mechanism that promotes adipocyte development, and implicate its potential as a clock intervention target for obesity.

The Insulin Receptor and Insulin like Growth Factor Receptor 5' UTRs Support Translation Initiation Independently of EIF4G1.

Clark NK, Harris MT, Dahl WB … +2 more , Knotts Z, Marr MT

Mol Cell Biol · 2023 · PMID 37724583 · Full text

IRES mediated translation initiation requires a different repertoire of factors than canonical cap-dependent translation. Treatments that inhibit the canonical translation factor EIF4G1 have little or no effect on the ab... IRES mediated translation initiation requires a different repertoire of factors than canonical cap-dependent translation. Treatments that inhibit the canonical translation factor EIF4G1 have little or no effect on the ability of the Insr and Igf1r cellular IRESes to promote translation. Transcripts for two cellular receptors contain RNA elements that facilitate translation initiation without intact EIF4G1. Cellular IRES mechanisms may resemble viral type III IRESes allowing them to promote translate with a limited number of initiation factors allowing them to work under stress conditions when canonical translation is repressed.

The Scaffold Protein KATNIP Enhances CILK1 Control of Primary Cilia.

Turner JS, McCabe EA, Kuang KW … +5 more , Gailey CD, Brautigan DL, Limerick A, Wang EX, Fu Z

Mol Cell Biol · 2023 · PMID 37665596 · Full text

The primary cilium functions as a cellular sensory organelle and signaling antenna that detects and transduces extracellular signals. Mutations in the human gene (ciliogenesis associated kinase 1) cause abnormal cilia e... The primary cilium functions as a cellular sensory organelle and signaling antenna that detects and transduces extracellular signals. Mutations in the human gene (ciliogenesis associated kinase 1) cause abnormal cilia elongation and faulty Hedgehog signaling, associated with developmental disorders and epilepsy. CILK1 is a protein kinase that requires dual phosphorylation of its TDY motif for activation and its extended C-terminal intrinsically disordered region (IDR) mediates targeting to the basal body and substrate recognition. Proteomics previously identified katanin-interacting protein (KATNIP), also known as KIAA0556, as a CILK1 interacting partner. In this study we discovered that CILK1 colocalizes with KATNIP at the basal body and the CILK1 IDR is sufficient to mediate binding to KATNIP. Deletion analysis of KATNIP shows one of three domains of unknown function (DUF) is required for association with CILK1. KATNIP binding with CILK1 drastically elevated CILK1 protein levels and TDY phosphorylation in cells. This resulted in a profound increase in phosphorylation of known CILK1 substrates and suppression of cilia length. Thus, KATNIP functions as a regulatory subunit of CILK1 that potentiates its actions. This advances our understanding of the molecular basis of control of primary cilia.

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Mol Cell Biol · 2023 · PMID 37622479 · Full text

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Degradation of CDK9 by Ubiquitin E3 Ligase STUB1 Regulates P-TEFb Level and Its Functions for Global Target Gene Expression within Mammalian Cells.

Basu S, Nandy A, Ghosh A … +2 more , Mall DP, Biswas D

Mol Cell Biol · 2023 · PMID 37564002 · Full text

Positive transcription elongation factor b (P-TEFb) regulates expression of diverse sets of genes within mammalian cells that have implications in several human disease pathogeneses. However, mechanisms of functional reg... Positive transcription elongation factor b (P-TEFb) regulates expression of diverse sets of genes within mammalian cells that have implications in several human disease pathogeneses. However, mechanisms of functional regulation of P-TEFb complex through regulation of its stability are poorly known. In this study, we show an important role of C-terminus of Hsc70-interacting protein (CHIP aka STUB1) in regulation of overall level of CDK9 and thus P-TEFb complex within mammalian cells. STUB1 acts as a ubiquitin E3 ligase for proteasomal degradation of CDK9 involving N-terminal lysine 3 (K3) residue. Whereas, overexpression of STUB1 enhances, its knockdown reduces overall CDK9 degradation kinetics within mammalian cells. Interestingly, owing to the same region of binding within CDK9, CyclinT1 protects CDK9 from STUB1-mediated degradation. Factors that cooperatively bind with CyclinT1 to form functional complex also protects CDK9 from degradation by STUB1. Knockdown of STUB1 enhances CDK9 expression and thus P-TEFb complex formation that leads to global increase in RNA polymerase II CTD phosphorylation and transcriptional activation of diverse P-TEFb target genes. Thus, we describe an important functional role of STUB1 in regulation of transcription through modulation of overall level of P-TEFb complex formation within mammalian cells.

The Sequential Recruitments of Rab-GTPase Ypt1p and the NNS Complex onto pre- mRNA Promote Its Nuclear Degradation in Baker's Yeast.

Paira S, Chakraborty A, Das B

Mol Cell Biol · 2023 · PMID 37533322 · Full text

Induction of unfolded protein response involves activation of transcription factor Hac1p that is encoded by pre-mRNA harboring an intron and a bipartite element (BE), which is subjected to nuclear mRNA decay by the nucl... Induction of unfolded protein response involves activation of transcription factor Hac1p that is encoded by pre-mRNA harboring an intron and a bipartite element (BE), which is subjected to nuclear mRNA decay by the nuclear exosome/Cbc1p-Tif4631p-dependent Exosome Targeting (CTEXT) complex. Using a combination of genetic and biochemical approaches, we demonstrate that a Rab-GTPase Ypt1p controls unfolded protein response signaling dynamics. This regulation relies on the nuclear localization of a small fraction of the cellular Ypt1p pool in the absence of endoplasmic reticulum (ER)-stress causing a strong association of the nuclear Ypt1p with pre- mRNA that eventually promotes sequential recruitments of NNS, CTEXT, and the nuclear exosome onto this pre-mRNA. Recruitment of these decay factors onto pre- mRNA is accompanied by its rapid nuclear decay that produces a precursor RNA pool lacking functional BE thereby causing its inefficient targeting to Ire1p foci leading to their diminished splicing and translation. ER stress triggers rapid relocalization of the nuclear pool of Ypt1p to the cytoplasm leading to its dissociation from pre- mRNA thereby causing decreased recruitment of these decay factors to precursor RNA leading to its diminished degradation. Reduced decay results in an increased abundance of pre- mRNA with intact functional BE leading to its enhanced recruitment to Ire1p foci.

Shared Gene Targets of the ATF4 and p53 Transcriptional Networks.

Baniulyte G, Durham SA, Merchant LE … +1 more , Sammons MA

Mol Cell Biol · 2023 · PMID 37533313 · Full text

The master tumor suppressor p53 regulates multiple cell fate decisions, such as cell cycle arrest and apoptosis, via transcriptional control of a broad gene network. Dysfunction in the p53 network is common in cancer, of... The master tumor suppressor p53 regulates multiple cell fate decisions, such as cell cycle arrest and apoptosis, via transcriptional control of a broad gene network. Dysfunction in the p53 network is common in cancer, often through mutations that inactivate p53 or other members of the pathway. Induction of tumor-specific cell death by restoration of p53 activity without off-target effects has gained significant interest in the field. In this study, we explore the gene regulatory mechanisms underlying a putative anticancer strategy involving stimulation of the p53-independent integrated stress response (ISR). Our data demonstrate the p53 and ISR pathways converge to independently regulate common metabolic and proapoptotic genes. We investigated the architecture of multiple gene regulatory elements bound by p53 and the ISR effector ATF4 controlling this shared regulation. We identified additional key transcription factors that control basal and stress-induced regulation of these shared p53 and ATF4 target genes. Thus, our results provide significant new molecular and genetic insight into gene regulatory networks and transcription factors that are the target of numerous antitumor therapies.

Implications of Translesion DNA Synthesis Polymerases on Genomic Stability and Human Health.

Venkadakrishnan J, Lahane G, Dhar A … +4 more , Xiao W, Bhat KM, Pandita TK, Bhat A

Mol Cell Biol · 2023 · PMID 37439479 · Full text

Replication fork arrest-induced DNA double strand breaks (DSBs) caused by lesions are effectively suppressed in cells due to the presence of a specialized mechanism, commonly referred to as DNA damage tolerance (DDT). In... Replication fork arrest-induced DNA double strand breaks (DSBs) caused by lesions are effectively suppressed in cells due to the presence of a specialized mechanism, commonly referred to as DNA damage tolerance (DDT). In eukaryotic cells, DDT is facilitated through translesion DNA synthesis (TLS) carried out by a set of DNA polymerases known as TLS polymerases. Another parallel mechanism, referred to as homology-directed DDT, is error-free and involves either template switching or fork reversal. The significance of the DDT pathway is well established. Several diseases have been attributed to defects in the TLS pathway, caused either by mutations in the TLS polymerase genes or dysregulation. In the event of a replication fork encountering a DNA lesion, cells switch from high-fidelity replicative polymerases to low-fidelity TLS polymerases, which are associated with genomic instability linked with several human diseases including, cancer. The role of TLS polymerases in chemoresistance has been recognized in recent years. In addition to their roles in the DDT pathway, understanding noncanonical functions of TLS polymerases is also a key to unraveling their importance in maintaining genomic stability. Here we summarize the current understanding of TLS pathway in DDT and its implication for human health.

Circ Promotes TMZ Resistance in Glioma via Modulating -Mediated Activation of the Wnt/β-Catenin Pathway.

Li J, Ma J, Huang S … +4 more , Li J, Zhou L, Sun J, Chen L

Mol Cell Biol · 2023 · PMID 37427890 · Full text

Glioma, originating from neuroglial progenitor cells, is a type of intrinsic brain tumor with poor prognosis. temozolomide (TMZ) is the first-line chemotherapeutic agent for glioma. Exploring the mechanisms of circ under... Glioma, originating from neuroglial progenitor cells, is a type of intrinsic brain tumor with poor prognosis. temozolomide (TMZ) is the first-line chemotherapeutic agent for glioma. Exploring the mechanisms of circ underlying TMZ resistance in glioma is of great significance to improve glioma treatment. Bioinformatics was adopted to identify target genes. The circular structure of circ and its high expression in glioma cells were disclosed by quantitative real time-PCR (qRT-PCR) and PCR-agarose gel electrophoresis. Functional experiments proved that oxidized LDL receptor 1 () promotes TMZ resistance of glioma cells. Circ enhances TMZ resistance of glioma cells via modulating . Luciferase reporter, RNA-binding protein immunoprecipitation (RIP), RNA pulldown, mRNA stability, N6-methyladenosine (mA) dot blot and RNA total mA quantification assays were implemented, indicating that circ stabilizes mRNA via recruiting YTH N6-methyladenosine RNA binding protein 1 () and promotes mA methylation of pre-mRNA through recruiting methyltransferase-like 3 (). TOP/FOP-flash reporter assay and western blot verified that circ activates Wnt/β-catenin signaling pathway by regulating . Circ promotes TMZ resistance in glioma through regulating -mediated Wnt/β-catenin pathway activation. This study offers an insight into the efficacy improvement of TMZ for glioma treatment.

microRNA-130b May Induce Cerebral Vasospasm after Subarachnoid Hemorrhage via Modulating Kruppel-like Factor 4.

Huang Z, Hu J, Xu J … +2 more , Wang H, Dai L

Mol Cell Biol · 2023 · PMID 37381993 · Full text

Recently, the diverse functions of microRNAs (miRNAs) in brain diseases have been demonstrated. We intended to uncover the functional role of microRNA-130b (miR-130b) in cerebral vasospasm (CVS) following subarachnoid he... Recently, the diverse functions of microRNAs (miRNAs) in brain diseases have been demonstrated. We intended to uncover the functional role of microRNA-130b (miR-130b) in cerebral vasospasm (CVS) following subarachnoid hemorrhage (SAH). SAH was induced by injecting the autologous blood into the cisterna magna of Sprague Dawley rats. The cerebral vascular smooth muscle cells (cVSMCs) were extracted for in vitro experimentation. In vitro and in vivo assays were implemented with transfection of miR-130b mimic/inhibitor, sh-Kruppel-like factor 4 (), oe- plasmids or p38/MAPK signaling pathway agonist (anisomycin), respectively, to elaborate the role of miR-130b in CVS following SAH. Elevated miR-130b and reduced were found in SAH patients and rat models of SAH. was the target gene of miR-130b. miR-130b promoted the proliferation and migration of cVSMCs through the Inhibition of . Besides, inhibited the proliferation and migration of cVSMCs through blockage of the p38/MAPK pathway. Furthermore, in vivo assay confirmed the inhibitory effect of decreased miR-130b in CVS following SAH. In conclusion, miR-130b may activate the p38/MAPK signaling pathway through targeted inhibition of , thereby contributing to some extent to the development of cerebral vasospasm after SAH.
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