Featured
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Article
| Open AccessMolecular basis of VEGFR1 autoinhibition at the plasma membrane
Spontaneous activation of VEGFRs is a hallmark of diabetes and several cancers. Here, the authors show how in VEGFR1 a juxtamembrane segment connecting the catalytic and ligand-binding domains of the receptor can prevent its spontaneous activation.
- Manas Pratim Chakraborty
- , Diptatanu Das
- & Rahul Das
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Article
| Open AccessUltrastructure of macromolecular assemblies contributing to bacterial spore resistance revealed by in situ cryo-electron tomography
Bacterial endospores are among the most resilient forms of life. Here, authors reveal ultrastructural details of the spore chromosome and the multiprotein, multilayered extracellular coat, shedding light on mechanisms contributing to spore resistance.
- Elda Bauda
- , Benoit Gallet
- & Cecile Morlot
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Article
| Open AccessStructural basis for regulated assembly of the mitochondrial fission GTPase Drp1
Structural and functional studies highlight the molecular regulation of assembling the mitochondrial division machinery. The core unit is closed, and specific interactions open this unit to facilitate assembly at the right place and time in cells.
- Kristy Rochon
- , Brianna L. Bauer
- & Jason A. Mears
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Article
| Open AccessAggresome formation promotes ASK1/JNK signaling activation and stemness maintenance in ovarian cancer
The role of aggresomes in tumorigenesis and cancer progression remains to be explored. Here, the authors perform multi-omics and reveal that aggresome formation supports ovarian cancer stem cell properties via OTUD1 and ASK1/JNK signalling activation.
- Yurou Chen
- , Yulong Qiang
- & Feng Li
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Article
| Open AccessHKDC1 promotes tumor immune evasion in hepatocellular carcinoma by coupling cytoskeleton to STAT1 activation and PD-L1 expression
Aberrant expression of the human hexokinase HKDC1 has been observed in patients with cancer. Here the authors report that HKDC1 expression is associated with hepatocellular carcinoma progression and PD-L1 mediated immune evasion.
- Yi Zhang
- , Mingjie Wang
- & Ping Gao
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Article
| Open AccessIn situ structure of actin remodeling during glucose-stimulated insulin secretion using cryo-electron tomography
Actin mediates insulin secretion in pancreatic β-cells through remodeling. Here, authors report the in situ structure of actin remodeling and quantify changes in architecture, alignment, and interactions during glucose-stimulated insulin secretion.
- Weimin Li
- , Angdi Li
- & Liping Sun
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Article
| Open AccessKisspeptin-10 binding to Gpr54 in osteoclasts prevents bone loss by activating Dusp18-mediated dephosphorylation of Src
The authors of this manuscript identify that Gpr54 activation by its natural ligand Kisspeptin-10 can abrogate bone resorption. Mechanistically, Gpr54 recruits both active Src and the Dusp18 phosphatase, which causes Dusp18 to dephosphorylate Src at Tyr 416.
- Zhenxi Li
- , Xinghai Yang
- & Jianru Xiao
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Article
| Open AccessPalmitic acid in type 2 diabetes mellitus promotes atherosclerotic plaque vulnerability via macrophage Dll4 signaling
Patients with Type 2 Diabetes Mellitus are increasingly susceptible to atherosclerotic plaque vulnerability. Here, the authors show that elevated palmitic acid levels are linked to increased atherosclerotic plaque vulnerability.
- Xiqiang Wang
- , Ling Zhu
- & Zhongwei Liu
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Article
| Open AccessIntercellular transfer of cancer cell invasiveness via endosome-mediated protease shedding
The matrix metalloprotease MT1-MMP drives cancer metastasis. Here, the authors demonstrate how invasive cancer cells instigate non-invasive neighbouring cells to become degradative and invasive by transferring catalytically active MT1-MMP fragments.
- Eva Maria Wenzel
- , Nina Marie Pedersen
- & Camilla Raiborg
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Article
| Open AccessNutrient-dependent regulation of a stable intron modulates germline mitochondrial quality control
The quality of germline mitochondria is essential for producing healthy oocytes. Here, Ng, Chan and Pek report a stable intron that modulates germline mitochondrial quality control during fasting, heat stress and aging.
- Annabel Qi En Ng
- , Seow Neng Chan
- & Jun Wei Pek
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Article
| Open AccessDynamic nucleolar phase separation influenced by non-canonical function of LIN28A instructs pluripotent stem cell fate decisions
The role of nucleolar phase separation in stem cell fate decision is not well understood. Here, the authors show that the nucleolus-localized LIN28A protein undergoes LLPS in mESCs and in vitro, and that pluripotency state conversion depends on this phase separation capacity.
- Tianyu Tan
- , Bo Gao
- & Jin Zhang
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Article
| Open AccessStructure-guided engineering enables E3 ligase-free and versatile protein ubiquitination via UBE2E1
Ubiquitin E3 ligases are key to accessing ubiquitinated proteins, but only a few substrates have defined E3 ligases. Here, the authors reveal the mechanism of naturally occurring E3-independent ubiquitination and develop an E3-free enzymatic strategy for the versatile generation of ubiquitinated proteins.
- Xiangwei Wu
- , Yunxiang Du
- & Lei Liu
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Article
| Open AccessMatrin3 mediates differentiation through stabilizing chromatin loop-domain interactions and YY1 mediated enhancer-promoter interactions
Alterations in proteins within nuclear compartments often lead to changes in chromosomal architecture. Here, using acute targeted protein degradation, the authors reveal that the nuclear complex protein Matrin3 directly mediates differentiation through stabilizing chromatin loop domain interactions.
- Tianxin Liu
- , Qian Zhu
- & Stuart H. Orkin
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Article
| Open AccessHeterogeneity of hepatocyte dynamics restores liver architecture after chemical, physical or viral damage
Hepatocytes regenerate the liver after injury, however, the tissue repair mechanisms have been little explored. Here, the authors show that midlobular and pericentral hepatocytes increase their number and size in response to chemical, physical, and viral insults facilitating liver regeneration.
- Inmaculada Ruz-Maldonado
- , John T. Gonzalez
- & Carlos Fernández-Hernando
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Article
| Open AccessTFIP11 promotes replication fork reversal to preserve genome stability
The RAD51 recombinase plays a pivotal role in replication fork reversal during replication stress. Here, the authors show that the GCFC domain-containing protein TFIP11 interacts with BLM helicase and is important for fork reversal during replication stress to preserve genome stability.
- Junliang Chen
- , Mingjie Wu
- & Ting Liu
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Article
| Open AccessMechanistic characterization of a Drosophila model of paraneoplastic nephrotic syndrome
The fruit fly Drosophila melanogaster has emerged as a model to characterize the mechanisms of tumor-induced host organ dysfunction. Here, Xu, Liu et al. describe a mechanism of tumor-induced kidney dysfunction through hyper-activation of the PvR/JNK/Jra pathway in the Principal cells of the fly kidney/Malpighian tubules.
- Jun Xu
- , Ying Liu
- & Norbert Perrimon
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Article
| Open AccessProtein thermal sensing regulates physiological amyloid aggregation
Cells form non-pathological amyloids to survive stressful conditions. Marijan et al. show that heat shock-induced aggregation is self-regulated by protein stability, with high-ordered motifs acting as thermo-switches that control amyloidogenesis.
- Dane Marijan
- , Evgenia A. Momchilova
- & Timothy E. Audas
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Article
| Open AccessPhosphorylation of Arabidopsis UVR8 photoreceptor modulates protein interactions and responses to UV-B radiation
This paper reports that the Arabidopsis UV-B photoreceptor UVR8 is phosphorylated in vivo and that phosphorylation of Serine 402 modifies UVR8 activity and promotes flavonoid biosynthesis, a key response to UV-B exposure.
- Wei Liu
- , Giovanni Giuriani
- & Gareth I. Jenkins
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Article
| Open AccessMotility and tumor infiltration are key aspects of invariant natural killer T cell anti-tumor function
Invariant natural killer T (iNKT) cells are important contributors to anti-tumour immunity, but they often become dysfunctional in cancers. Here authors show that inhibited iNKT intra-tumour motility and iNKT cell exclusion from tumours by macrophages both contribute to their diminished function in cancer, and by therapeutic interference with the respective motility and iNKT-macrophage interaction pathways, their function can be restored.
- Chenxi Tian
- , Yu Wang
- & Li Bai
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Article
| Open AccessAutoinhibition and activation of myosin VI revealed by its cryo-EM structure
This study reveals the high-resolution cryo-EM structure of autoinhibited myosin VI, offering insights into cargo-mediated activation of this unique myosin motor and advancing our understanding of motor activity control in the myosin superfamily.
- Fengfeng Niu
- , Lingxuan Li
- & Zhiyi Wei
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Article
| Open AccessAndrogen drives melanoma invasiveness and metastatic spread by inducing tumorigenic fucosylation
Mechanisms underlying sex associated differences in the role of androgen receptor (AR) in melanoma are unclear. Here the authors show that androgen-activated AR transcriptionally upregulates fucosyltransferase 4, which fucosylates L1CAM and promotes melanoma invasiveness by disrupting adherens junctions.
- Qian Liu
- , Emma Adhikari
- & Eric K. Lau
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Article
| Open AccessN2FXm, a method for joint nuclear and cytoplasmic volume measurements, unravels the osmo-mechanical regulation of nuclear volume in mammalian cells
Cells exert tight control over the size of their compartments in order to regulate their function. Here, nuclear fluorescence exclusion microscopy is able to measure the nuclear and cytoplasmic volumes of live cells in a high-throughput way.
- Fabrizio A. Pennacchio
- , Alessandro Poli
- & Paolo Maiuri
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Article
| Open AccessDiffusible fraction of niche BMP ligand safeguards stem-cell differentiation
The activity of Drosophila male germline stem cells is tightly regulated by a cluster of somatic niche cells. Here they find that Dpp induces opposed cellular responses in stem cells versus in differentiating descendants, thereby ensuring spatial control of the niche with a single factor.
- Sharif M. Ridwan
- , Autumn Twillie
- & Mayu Inaba
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Article
| Open AccessRelaxation of mitochondrial hyperfusion in the diabetic retina via N6-furfuryladenosine confers neuroprotection regardless of glycaemic status
Restoring mitochondrial function has emerged as a promising therapeutic strategy for diabetic retinopathy. Here, the authors show that mitochondrial hyperfusion blunts mitophagy during the disease process, and that rescuing this process pharmacologically confers retinal neuroprotection independent of an improved glycaemic status in type-1 diabetic mice.
- Aidan Anderson
- , Nada Alfahad
- & Jose R. Hombrebueno
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Article
| Open AccessMicrotubules provide force to promote membrane uncoating in vacuolar escape for a cyto-invasive bacterial pathogen
Shigella enters human cells in a phagocytic vacuole and then escapes the vacuole to colonize the cytosol. Here, Chang and coworkers show that Shigella uses a bacterial effector to subvert host Rab proteins, microtubules and molecular motors to provide mechanical force to facilitate Shigella escape.
- Yuen-Yan Chang
- , Camila Valenzuela
- & John Rohde
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Article
| Open AccessCDK6 inhibits de novo lipogenesis in white adipose tissues but not in the liver
Obesity is a risk factor for diseases. Here, authors found that inhibition of cyclin-dependent kinase 6 increased de novo lipogenesis in the adipose tissues but not in the liver, which may provide a strategy to concur obesity-induced maladies.
- Alexander J. Hu
- , Wei Li
- & Miaofen G. Hu
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Article
| Open AccessLeukaemia exposure alters the transcriptional profile and function of BCR::ABL1 negative macrophages in the bone marrow niche
The function of macrophages in myeloid leukaemia can be difficult to assess because of lack of differentiation between transformed and non-transformed cells. Here the authors use a chimeric mouse model to characterise the effect of myeloid leukaemia on bystander macrophages noting altered functional properties of these cells.
- Amy Dawson
- , Martha M. Zarou
- & G. Vignir Helgason
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Article
| Open AccessResolvin T4 enhances macrophage cholesterol efflux to reduce vascular disease
Specialized pro-resolving mediators (SPM) are involved in the reprogramming of immune responses. Here the authors show that resolvin (RvT) 4 limits the progression of vascular disease in mouse models of arthritis exacerbated atherosclerotic inflammation.
- Mary E. Walker
- , Roberta De Matteis
- & Jesmond Dalli
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Article
| Open AccessShort-term hypercaloric carbohydrate loading increases surgical stress resilience by inducing FGF21
Surgery poses significant risks for patients, with attempts to mitigate these risks using multimodal perioperative care pathways. Here, the authors show that preoperative hypercaloric carbohydrate drinks not only alleviate surgical stress but also demonstrates the replicability of this protection using FGF21 treatment alone.
- Thomas Agius
- , Raffaella Emsley
- & Alban Longchamp
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Article
| Open AccessPhosphoglycerate kinase 1 acts as a cargo adaptor to promote EGFR transport to the lysosome
The epidermal growth factor receptor (EGFR) plays important roles in cell growth and motility. Here, authors reveal an unexpected function for a metabolic enzyme PGK1 and advance the mechanistic understanding of lysosomal transport of EGFR.
- Shao-Ling Chu
- , Jia-Rong Huang
- & Jia-Wei Hsu
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Article
| Open AccessTigerfish designs oligonucleotide-based in situ hybridization probes targeting intervals of highly repetitive DNA at the scale of genomes
Repetitive DNA intervals play important roles in the nucleus but are difficult to study due to their reiterated nature. Tigerfish introduces a novel computational platform for the design of interval-specific in situ hybridization probes.
- Robin Aguilar
- , Conor K. Camplisson
- & Brian J. Beliveau
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Article
| Open AccessEtrolizumab-s fails to control E-Cadherin-dependent co-stimulation of highly activated cytotoxic T cells
The clinical success of anti- αEβ7 antibody Etrolizumab for Crohn’s disease is less than what is expected based on proof-of-concept studies. Here authors show, by characterization of T cells from Etrolizumab-treated patients, in vitro functional assays and reanalysis of public single cell datasets on Etrolizumab-treated patients, that at high level of T cell activation, which characterises T cells in Crohn’s disease, E-Cadherin-αEβ7 interactions become resistant to Etrolizumab inhibition.
- Maximilian Wiendl
- , Mark Dedden
- & Sebastian Zundler
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Article
| Open AccessOrientation-invariant autoencoders learn robust representations for shape profiling of cells and organelles
In image analysis, the shape properties of cells/organelles should be unaffected by image orientation. Conventional autoencoder (AE) methods can be sensitive to orientation. Here, the authors develop an unsupervised AE method that learns robust, orientation-invariant representations.
- James Burgess
- , Jeffrey J. Nirschl
- & Serena Yeung-Levy
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Article
| Open AccessDetection of senescence using machine learning algorithms based on nuclear features
Identifying senescence is complicated by a lack of universal markers. Here, Duran et al. use nuclear morphology features to devise machine-learning classifiers that detect senescence in cell lines and liver sections of patients and mouse models of aging and disease.
- Imanol Duran
- , Joaquim Pombo
- & Jesús Gil
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Article
| Open AccessRescue of mitochondrial import failure by intercellular organellar transfer
Mitochondrial biogenesis and maintenance relies on protein import from the cytosol. Here, authors show that import failure impacts organelle structure and dynamics. They also identify a rescue mechanism involving intercellular mitochondrial transfer.
- Hope I. Needs
- , Emily Glover
- & Ian Collinson
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Article
| Open AccessR-Spondin 2 governs Xenopus left-right body axis formation by establishing an FGF signaling gradient
Left-right (LR) body asymmetry is established by leftward flow in the LR organizer. Here, the authors show in Xenopus that R-Spondin 2 acts as an FGF receptor antagonist that produces a right-to-left FGF signaling gradient in response to flow to break LR symmetry.
- Hyeyoon Lee
- , Celine Marie Camuto
- & Christof Niehrs
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Article
| Open AccessMitochondrial protein C15ORF48 is a stress-independent inducer of autophagy that regulates oxidative stress and autoimmunity
Stress-independent autophagy is less understood than stress-induced autophagy and is important for thymic self-tolerance. Here the authors show that a mitochondrial protein C15ORF48 is important for stress-independent autophagy and alters glutathione metabolism and C15orf48 knockout mice develop autoimmunity and changes to thymic epithelial cells.
- Yuki Takakura
- , Moeka Machida
- & Noritaka Yamaguchi
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Article
| Open AccessTissue-specific profiling of age-dependent miRNAomic changes in Caenorhabditis elegans
Wang et al. profile age-dependent miRNAomic changes in worm tissues and extracellular vesicles (EVs). They show that ageing controls miRNAs in a tissue-specific manner and their findings further suggest a complex EV-mediated miRNA trafficking network across tissues.
- Xueqing Wang
- , Quanlong Jiang
- & Yidong Shen
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Article
| Open AccessRan-GTP assembles a specialized spindle structure for accurate chromosome segregation in medaka early embryos
Mitotic spindle assembles in each blastomere to segregate duplicated chromosomes during cleavage of the fertilized egg. Here, the authors establish functional assays in fish embryos and find that Ran-GTP assembles a microtubule network at the metaphase spindle center that is essential for chromosome segregation.
- Ai Kiyomitsu
- , Toshiya Nishimura
- & Tomomi Kiyomitsu
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Article
| Open AccessHRDE-2 drives small RNA specificity for the nuclear Argonaute protein HRDE-1
Argonaute proteins are loaded with small RNAs to confer target RNA specificity and proper gene silencing. Here, the authors establish that HRDE-2 recruits the unloaded nuclear Argonaute HRDE-1 to germ granules to facilitate correct small RNA loading.
- Shihui Chen
- & Carolyn M. Phillips
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Article
| Open AccessDENND6A links Arl8b to a Rab34/RILP/dynein complex, regulating lysosomal positioning and autophagy
Small GTPases such as Rabs control the positioning of lysosomes. Here, the authors unveil a molecular cascade orchestrated by Arl8/DENND6A/Rab34 that regulates lysosome location, impacting autophagy.
- Rahul Kumar
- , Maleeha Khan
- & Peter S. McPherson
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Article
| Open AccessMolecular mechanisms underlying the BIRC6-mediated regulation of apoptosis and autophagy
The balance between apoptosis and autophagy is critical for normal development, proper tissue function, and disease pathogenesis. Here, the authors show previously unannotated BIRC6 domains, including a ubiquitin-like domain, and how it utilizes its ubiquitylation function to regulate both apoptosis and autophagy.
- Shuo-Shuo Liu
- , Tian-Xia Jiang
- & Xiao-Bo Qiu
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Article
| Open AccessExpression of E-cadherin by CD8+ T cells promotes their invasion into biliary epithelial cells
The presence of CD8+ T cells in the cytoplasm of biliary epithelial cells (BEC) has been associated with primary biliary cholangitis. Here, the authors demonstrate that CD8+ T cells invade BEC using a mechanism that is dependent on cytoskeletal rearrangements and E-cadherin:β-catenin interactions.
- Scott P. Davies
- , Vincenzo Ronca
- & Ye H. Oo
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Article
| Open AccessNuclear and cytoplasmic specific RNA binding proteome enrichment and its changes upon ferroptosis induction
The reported assay shows a subcellular-specific RNA labeling method for efficient enrichment and deep profiling of nuclear and cytoplasmic RBPs, the authors apply this to investigate changes of subcellular-specific RBP-RNA interactions in ferroptosis.
- Haofan Sun
- , Bin Fu
- & Weijie Qin
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Article
| Open AccessA universal metabolite repair enzyme removes a strong inhibitor of the TCA cycle
Succinate dehydrogenase converts malate to enoloxaloacetate, a metabolically inactive and inhibitory side product of the TCA cycle. Here, Zmuda et al. describe a conserved metabolite damage repair enzyme that can remove enol-oxaloacetate and is critical for efficient aerobic respiration.
- Anthony J. Zmuda
- , Xiaojun Kang
- & Thomas D. Niehaus
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Article
| Open AccessFLIP(C1orf112)-FIGNL1 complex regulates RAD51 chromatin association to promote viability after replication stress
Recombination is essential for life. Here, the authors characterize FLIP as a novel regulator of the key recombination protein RAD51’s functions. FLIP loss caused marked sensitivity to DNA damage, increased DNA breakage and defective replication.
- Jessica D. Tischler
- , Hiroshi Tsuchida
- & Richard O. Adeyemi
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Article
| Open AccessRNA polymerase II pausing is essential during spermatogenesis for appropriate gene expression and completion of meiosis
Gene expression dynamics are tightly regulated during spermatogenesis, with disruptions resulting in infertility. Here they identify a critical role for RNA PolII pausing in spermatogenesis and show that loss of the RNA PolII pausing factor NELF causes meiotic arrest.
- Emily G. Kaye
- , Kavyashree Basavaraju
- & Prabhakara P. Reddi
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Article
| Open AccessCaMK4 controls follicular helper T cell expansion and function during normal and autoimmune T-dependent B cell responses
Calmodulin-dependent kinase 4 (CaMK4) has been implicated in humoral immunity. Here, the authors demonstrate that CaMK4 expression controls the differentiation of T follicular helper cells, leading to the expansion of pathogenic B cells in systemic lupus erythematosus.
- Marc Scherlinger
- , Hao Li
- & George C. Tsokos
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Article
| Open AccessMitophagy curtails cytosolic mtDNA-dependent activation of cGAS/STING inflammation during aging
Dysregulated autophagy and mitochondrial function are two well-described hallmarks of aging. Here, the authors describe an unexpected age-associated upregulation of mitophagy in response to neuroinflammation triggered by leaked mtDNA.
- Juan Ignacio Jiménez-Loygorri
- , Beatriz Villarejo-Zori
- & Patricia Boya
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