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Cell Res. [JOURNAL]

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Killing cancer quickly: inducing hyper-acute rejection of patient tumors.

Bartee E

Cell Res · 2025 Aug · PMID 40074797 · Full text

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Publisher Correction: Comprehensive discovery and functional characterization of the noncanonical proteome.

Shi C, Liu F, Su X … +32 more , Yang Z, Wang Y, Xie S, Xie S, Sun Q, Chen Y, Sang L, Tan M, Zhu L, Lei K, Li J, Yang J, Gao Z, Yu M, Wang X, Wang J, Chen J, Zhuo W, Fang Z, Liu J, Yan Q, Neculai D, Sun Q, Shao J, Lin W, Liu W, Chen J, Wang L, Liu Y, Li X, Zhou T, Lin A

Cell Res · 2025 Mar · PMID 40065135 · Full text

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Oncogenic RAS induces a distinctive form of non-canonical autophagy mediated by the P38-ULK1-PI4KB axis.

Wang X, Li S, Lin S … +9 more , Han Y, Zhan T, Huang Z, Wang J, Li Y, Deng H, Zhang M, Feng D, Ge L

Cell Res · 2025 Jun · PMID 40055523 · Full text

Cancer cells with RAS mutations exhibit enhanced autophagy, essential for their proliferation and survival, making it a potential target for therapeutic intervention. However, the regulatory differences between RAS-induc... Cancer cells with RAS mutations exhibit enhanced autophagy, essential for their proliferation and survival, making it a potential target for therapeutic intervention. However, the regulatory differences between RAS-induced autophagy and physiological autophagy remain poorly understood, complicating the development of cancer-specific anti-autophagy treatments. In this study, we identified a form of non-canonical autophagy induced by oncogenic KRAS expression, termed RAS-induced non-canonical autophagy via ATG8ylation (RINCAA). RINCAA involves distinct autophagic factors compared to those in starvation-induced autophagy and incorporates non-autophagic components, resulting in the formation of non-canonical autophagosomes with multivesicular/multilaminar structures labeled by ATG8 family proteins (e.g., LC3 and GABARAP). We have designated these structures as RAS-induced multivesicular/multilaminar bodies of ATG8ylation (RIMMBA). A notable feature of RINCAA is the substitution of the class III PI3K in canonical autophagy with PI4KB in RINCAA. We identified a regulatory P38-ULK1-PI4KB-WIPI2 signaling cascade governing this process, where ULK1 triggers PI4KB phosphorylation at S256 and T263, initiating PI4P production, ATG8ylation, and non-canonical autophagy. Importantly, elevated PI4KB phosphorylation at S256 and T263 was observed in RAS-mutated cancer cells and colorectal cancer specimens. Inhibition of PI4KB S256 and T263 phosphorylation led to a reduction in RINCAA activity and tumor growth in both xenograft and KPC models of pancreatic cancer, suggesting that targeting ULK1-mediated PI4KB phosphorylation could represent a promising therapeutic strategy for RAS-mutated cancers.

SETD1B-mediated broad H3K4me3 controls proper temporal patterns of gene expression critical for spermatid development.

Lin Z, Rong B, Lyu R … +8 more , Zheng Y, Chen Y, Yan J, Wu M, Gao X, Tang F, Lan F, Tong MH

Cell Res · 2025 May · PMID 40033033 · Full text

Epigenetic programming governs cell fate determination during development through intricately controlling sequential gene activation and repression. Although H3K4me3 is widely recognized as a hallmark of gene activation,... Epigenetic programming governs cell fate determination during development through intricately controlling sequential gene activation and repression. Although H3K4me3 is widely recognized as a hallmark of gene activation, its role in modulating transcription output and timing within a continuously developing system remains poorly understood. In this study, we provide a detailed characterization of the epigenomic landscapes in developing male germ cells. We identified thousands of spermatid-specific broad H3K4me3 domains regulated by the SETD1B-RFX2 axis, representing a previously underappreciated form of H3K4me3. These domains, overlapping with H3K27ac-marked enhancers and promoters, play critical roles in orchestrating robust transcription and accurate temporal control of gene expression. Mechanistically, these broad H3K4me3 compete effectively with regular H3K4me3 for transcriptional machinery, thereby ensuring robust levels and precise timing of master gene expression in mouse spermiogenesis. Disruption of this mechanism compromises the accuracy of transcription dosage and timing, ultimately impairing spermiogenesis. Additionally, we unveil remarkable changes in the distribution of heterochromatin marks, including H3K27me3 and H3K9me2, during the mitosis-to-meiosis transition and completion of meiotic recombination, which closely correlates with gene silencing. This work underscores the highly orchestrated epigenetic regulation in spermatogenesis, highlighting the previously unrecognized role of Setd1b in the formation of broad H3K4me3 domains and transcriptional control, and provides an invaluable resource for future studies toward the elucidation of spermatogenesis.

Author Correction: The rapid proximity labeling system PhastID identifies ATP6AP1 as an unconventional GEF for Rheb.

Feng R, Liu F, Li R … +14 more , Zhou Z, Lin Z, Lin S, Deng S, Li Y, Nong B, Xia Y, Li Z, Zhong X, Yang S, Wan G, Ma W, Wu S, Songyang Z

Cell Res · 2025 Apr · PMID 40016599 · Full text

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Structural insights into spliceosome fidelity: DHX35-GPATCH1- mediated rejection of aberrant splicing substrates.

Li Y, Fischer P, Wang M … +9 more , Zhou Q, Song A, Yuan R, Meng W, Chen FX, Lührmann R, Lau B, Hurt E, Cheng J

Cell Res · 2025 Apr · PMID 40016598 · Full text

The spliceosome, a highly dynamic macromolecular assembly, catalyzes the precise removal of introns from pre-mRNAs. Recent studies have provided comprehensive structural insights into the step-wise assembly, catalytic sp... The spliceosome, a highly dynamic macromolecular assembly, catalyzes the precise removal of introns from pre-mRNAs. Recent studies have provided comprehensive structural insights into the step-wise assembly, catalytic splicing and final disassembly of the spliceosome. However, the molecular details of how the spliceosome recognizes and rejects suboptimal splicing substrates remained unclear. Here, we show cryo-electron microscopy structures of spliceosomal quality control complexes from a thermophilic eukaryote, Chaetomium thermophilum. The spliceosomes, henceforth termed B*, are stalled at a catalytically activated state but prior to the first splicing reaction due to an aberrant 5' splice site conformation. This state is recognized by G-patch protein GPATCH1, which is docked onto PRP8-EN and -RH domains and has recruited the cognate DHX35 helicase to its U2 snRNA substrate. In B*, DHX35 has dissociated the U2/branch site helix, while the disassembly helicase DHX15 is docked close to its U6 RNA 3'-end substrate. Our work thus provides mechanistic insights into the concerted action of two spliceosomal helicases in maintaining splicing fidelity by priming spliceosomes that are bound to aberrant splice substrates for disassembly.

Structural basis of phosphate export by human XPR1.

Wang Y, Wang Y, Yang H … +3 more , Li A, Ma D, Shen H

Cell Res · 2025 Apr · PMID 40016597 · Full text

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NO-immune privilege for hematopoietic stem cells.

Chédeville AL, Méndez-Ferrer S

Cell Res · 2025 Jul · PMID 40016596 · Full text

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TCR catch bonds nonlinearly control CD8 cooperation to shape T cell specificity.

Qin R, Zhang Y, Shi J … +10 more , Wu P, An C, Li Z, Liu N, Wan Z, Hua T, Li X, Lou J, Yin W, Chen W

Cell Res · 2025 Apr · PMID 40011760 · Full text

Naturally evolved T-cell receptors (TCRs) exhibit remarkably high specificity in discriminating non-self antigens from self-antigens under dynamic biomechanical modulation. In contrast, engineered high-affinity TCRs ofte... Naturally evolved T-cell receptors (TCRs) exhibit remarkably high specificity in discriminating non-self antigens from self-antigens under dynamic biomechanical modulation. In contrast, engineered high-affinity TCRs often lose this specificity, leading to cross-reactivity with self-antigens and off-target toxicity. The underlying mechanism for this difference remains unclear. Our study reveals that natural TCRs exploit mechanical force to form optimal catch bonds with their cognate antigens. This process relies on a mechanically flexible TCR-pMHC binding interface, which enables force-enhanced CD8 coreceptor binding to MHC-αα domains through sequential conformational changes induced by force in both the MHC and CD8. Conversely, engineered high-affinity TCRs create rigid, tightly bound interfaces with cognate pMHCs of their parental TCRs. This rigidity prevents the force-induced conformational changes necessary for optimal catch-bond formation. Paradoxically, these high-affinity TCRs can form moderate catch bonds with non-stimulatory pMHCs of their parental TCRs, leading to off-target cross-reactivity and reduced specificity. We have also developed comprehensive force-dependent TCR-pMHC kinetics-function maps capable of distinguishing functional and non-functional TCR-pMHC pairs and identifying toxic, cross-reactive TCRs. These findings elucidate the mechano-chemical basis of the specificity of natural TCRs and highlight the critical role of CD8 in targeting cognate antigens. This work provides valuable insights for engineering TCRs with enhanced specificity and potency against non-self antigens, particularly for applications in cancer immunotherapy and infectious disease treatment, while minimizing the risk of self-antigen cross-reactivity.

Hangry hairs: intermittent fasting linked to hair loss.

Galvan C, Lowry WE

Cell Res · 2025 May · PMID 40000774 · Full text

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Grease, fuel and target - polyunsaturated lipids in metastasis.

Schwab A, Brabletz T

Cell Res · 2025 Jul · PMID 40000773 · Full text

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Mimicking the TCR immune synapse for improved CAR-T cell function.

Enbar T, Tang L

Cell Res · 2025 Aug · PMID 40000772 · Full text

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A force-sensitive adhesion GPCR is required for equilibrioception.

Yang Z, Zhou SH, Zhang QY … +24 more , Song ZC, Liu WW, Sun Y, Wang MW, Fu XL, Zhu KK, Guan Y, Qi JY, Wang XH, Sun YN, Lu Y, Ping YQ, Xi YT, Teng ZX, Xu L, Xiao P, Xu ZG, Xiong W, Qin W, Yang W, Yi F, Chai RJ, Yu X, Sun JP

Cell Res · 2025 Apr · PMID 39966628 · Full text

Equilibrioception (sensing of balance) is essential for mammals to perceive and navigate the three-dimensional world. A rapid mechanoelectrical transduction (MET) response in vestibular hair cells is crucial for detectin... Equilibrioception (sensing of balance) is essential for mammals to perceive and navigate the three-dimensional world. A rapid mechanoelectrical transduction (MET) response in vestibular hair cells is crucial for detecting position and motion. Here, we identify the G protein-coupled receptor (GPCR) LPHN2/ADGRL2, expressed on the apical membrane of utricular hair cells, as essential for maintaining normal balance. Loss of LPHN2 specifically in hair cells impaired both balance behavior and the MET response in mice. Functional analyses using hair-cell-specific Lphn2-knockout mice and an LPHN2-specific inhibitor suggest that LPHN2 regulates tip-link-independent MET currents at the apical surface of utricular hair cells. Mechanistic studies in a heterologous system show that LPHN2 converts force stimuli into increased open probability of transmembrane channel-like protein 1 (TMC1). LPHN2-mediated force sensation triggers glutamate release and calcium signaling in utricular hair cells. Importantly, reintroducing LPHN2 into the hair cells of Lphn2-deficient mice restores vestibular function and MET response. Our data reveal that a mechanosensitive GPCR is required for equilibrioception.

Raptin, a novel brain hormone links sleep health to body weight gain.

Cabot L, Fenselau H

Cell Res · 2025 Apr · PMID 39962190 · Full text

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Halt aging? - functional HSCs lead the way.

Chu RT, Schroer AB, Villeda SA

Cell Res · 2025 Mar · PMID 39910165 · Full text

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Raptin, a sleep-induced hypothalamic hormone, suppresses appetite and obesity.

Xie LQ, Hu B, Lu RB … +11 more , Cheng YL, Chen X, Wen J, Xiao Y, An YZ, Peng N, Dai Y, Xie G, Guo Q, Peng H, Luo XH

Cell Res · 2025 Mar · PMID 39875551 · Full text

Sleep deficiency is associated with obesity, but the mechanisms underlying this connection remain unclear. Here, we identify a sleep-inducible hypothalamic protein hormone in humans and mice that suppresses obesity. This... Sleep deficiency is associated with obesity, but the mechanisms underlying this connection remain unclear. Here, we identify a sleep-inducible hypothalamic protein hormone in humans and mice that suppresses obesity. This hormone is cleaved from reticulocalbin-2 (RCN2), and we name it Raptin. Raptin release is timed by the circuit from vasopressin-expressing neurons in the suprachiasmatic nucleus to RCN2-positive neurons in the paraventricular nucleus. Raptin levels peak during sleep, which is blunted by sleep deficiency. Raptin binds to glutamate metabotropic receptor 3 (GRM3) in neurons of the hypothalamus and stomach to inhibit appetite and gastric emptying, respectively. Raptin-GRM3 signaling mediates anorexigenic effects via PI3K-AKT signaling. Of note, we verify the connections between deficiencies in the sleeping state, impaired Raptin release, and obesity in patients with sleep deficiency. Moreover, humans carrying an RCN2 nonsense variant present with night eating syndrome and obesity. These data define a unique hormone that suppresses food intake and prevents obesity.

Author Correction: Heat acclimation in mice requires preoptic BDNF neurons and postsynaptic potentiation.

Chen B, Gao C, Liu C … +10 more , Guo T, Hu J, Xue J, Tang K, Chen Y, Yu T, Shen Q, Sun H, Yang WZ, Shen WL

Cell Res · 2025 Mar · PMID 39856263 · Full text

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Transport and inhibition mechanism for human TauT-mediated taurine uptake.

Chao Y, Zhou Z, Xia H … +8 more , Yang C, Li T, Tang YQ, Shu Y, Ba Q, Hong J, Li D, Qu Q

Cell Res · 2025 May · PMID 39837997 · Full text

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Beyond housekeeping: a new role of snoRNA in nascent protein secretion.

Wu H, Liu CX, Chen LL

Cell Res · 2025 Aug · PMID 39828808 · Full text

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H₂O₂ regulates rice defense via bHLH25 oxidation.

Cao L, Dong X

Cell Res · 2025 Mar · PMID 39828807 · Full text

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