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CELL[JOURNAL]

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Mitochondrial control of glycerolipid synthesis by a PEP shuttle.

Yamamuro T, Katoh D, Silva GM … +12 more , Nishida H, Oikawa S, Higuchi Y, Wang D, Fujimoto M, Yoshida N, Li M, Shin J, Zhao Z, Yook JS, Sun L, Kajimura S

Cell · 2026 May · PMID 41850288 · Full text

Mitochondria provide a variety of metabolites, in addition to ATP, to meet cell-specific needs. One such metabolite is phosphoenolpyruvate (PEP), which contains a higher-energy phosphate bond than ATP and has diverse bio... Mitochondria provide a variety of metabolites, in addition to ATP, to meet cell-specific needs. One such metabolite is phosphoenolpyruvate (PEP), which contains a higher-energy phosphate bond than ATP and has diverse biological functions. However, how mitochondria-generated PEP is delivered to the cytosol and fulfills cell-specific requirements remains elusive. Here, we show that SLC25A35 regulates mitochondrial PEP efflux and glyceroneogenesis in lipogenic cells that utilize the pyruvate-to-PEP bypass. Reconstitution and structural studies demonstrated PEP transport by SLC25A35 in a pH gradient-dependent manner. Loss of SLC25A35 in adipocytes impaired the conversion of mitochondrial PEP into glycerol-3-phosphate, thereby reducing glycerolipid synthesis. Significantly, hepatic inhibition of SLC25A35 in obese mice alleviated steatosis and improved systemic glucose homeostasis. Together, these results suggest that mitochondria facilitate glycerolipid synthesis by providing PEP via SLC25A35, offering lipogenic mitochondria as a target to limit glycerolipid synthesis, a pivotal step in the pathogenesis of hepatic steatosis and type 2 diabetes.

Deep-learning-based de novo discovery and design of therapeutics that reverse disease-associated transcriptional phenotypes.

Xing J, Tan M, Leshchiner D … +20 more , Sun M, Abdelgied M, Huang L, Paithankar S, Uhl K, Shankar R, Lisabeth E, Aleiwi B, Jager T, Lawson C, Chen R, Giletto M, Girgis R, Neubig RR, So S, Ellsworth E, Li X, Chua MS, Zhou J, Chen B

Cell · 2026 Apr · PMID 41850287 · Full text

Identifying drugs that reverse disease-associated transcriptomic features has been widely explored for drug repurposing, but its potential for de novo drug discovery remains underexplored. Here, we present gene expressio... Identifying drugs that reverse disease-associated transcriptomic features has been widely explored for drug repurposing, but its potential for de novo drug discovery remains underexplored. Here, we present gene expression profile predictor on chemical structures (GPS), a deep-learning-based drug discovery platform, guided by transcriptomic features, that screens large compound libraries and optimizes lead molecules. We first develop a model that captures transcriptomic perturbation signatures solely from chemical structures and deploy it to library compounds. We refine scoring methods and employ a tree-search method for optimization. By incorporating structure-gene-activity relationships, we uncover drug mechanisms from transcriptomic data. We evaluate GPS across multiple diseases and conduct extensive validation in two cases. In hepatocellular carcinoma, we discover two unique compound series with favorable cellular selectivity and in vivo efficacy. In idiopathic pulmonary fibrosis, we identify one repurposing candidate and one novel anti-fibrotic compound by reversing gene expression of multiple distinct cell types derived from single-cell transcriptomics.

Functional RNA splitting drove the evolutionary emergence of type V CRISPR-Cas systems from transposons.

Jin S, Zhu Z, Li Y … +16 more , Zhang S, Liu Y, Li D, Li Y, Luo Y, Cheng Z, Zhao KT, Gao Q, Yang G, Li H, Liang R, Zhang R, Qiu JL, Zhang YE, Gogo Liu JJ, Gao C

Cell · 2026 Apr · PMID 41850286 · Publisher ↗

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Pluripotent stem-cell-based screening uncovers sildenafil as a mitochondrial disease therapy.

Zink A, Dai DF, Wittich A … +74 more , Henke MT, Pedrotti G, Heiduschka S, Santamaria G, Pentimalli TM, Brueser C, Notopoulou S, Umar AR, Zhaivoron A, Petersilie L, Jerred C, Bergmans J, Neu LA, Schumacher F, Keller-Findeisen J, Rybak-Wolf A, Stach D, Reinshagen J, Haferkamp U, Krieg K, Zaliani A, Euro L, Di Donfrancesco A, Santanatoglia C, Cappellozza E, Suarez Cubero M, Pavez-Giani M, Bakumenko O, Meierhofer D, Foley A, Morales-Gonzalez S, Tolle I, Herebian D, Bonesso D, Cecchetto G, Wong SN, Moresco M, Maresca A, Decimo I, De Sanctis F, Adamo A, Adjobo-Hermans MJW, Duchi R, Barandalla M, Scaglia M, Perota A, Galli C, Kleuser B, Cyganek L, Mühlhausen C, Schlotawa L, Tiranti V, Mayatepek E, Szabo I, La Morgia C, Klopstock T, Carelli V, Distelmaier F, Rossi A, Rajewsky N, Ullah G, Jakobs S, Rose CR, Petrakis S, Edenhofer F, Koopman WJH, Lisowski P, Suomalainen A, Brunetti D, Del Sol A, Bottani E, Pless O, Schuelke M, Prigione A

Cell · 2026 Mar · PMID 41819105 · Publisher ↗

Mitochondrial disease encompasses inherited disorders affecting mitochondrial function. A severe and untreatable form of mitochondrial disease is Leigh syndrome (LS), causing psychomotor regression and metabolic crises.... Mitochondrial disease encompasses inherited disorders affecting mitochondrial function. A severe and untreatable form of mitochondrial disease is Leigh syndrome (LS), causing psychomotor regression and metabolic crises. To accelerate drug discovery for LS, we screen a library of 5,632 repurposable compounds in neural cells from LS-patient-derived induced pluripotent stem cells (iPSCs). We identify phosphodiesterase type 5 (PDE5) inhibitors as leads and prioritize sildenafil for its clinical safety. Sildenafil corrects mitochondrial membrane potential defects, restores neurodevelopmental pathways, and normalizes calcium responses in LS brain organoids. In small and large mammalian models of LS, sildenafil extends lifespan and ameliorates disease phenotypes. Off-label treatment on an individual basis with sildenafil in six LS patients improves their motor function and resistance to metabolic crises. Collectively, the findings highlight the potential of iPSC-driven drug discovery and position sildenafil as a promising drug candidate for mitochondrial disease.

Cell-type-specific transposon demethylation and TAD remodeling in aging mouse brain.

Zeng Q, Wang W, Tian W … +31 more , Klein A, Bartlett A, Liu H, Nery JR, Castanon RG, Osteen J, Johnson ND, Ding W, Chen H, Altshul J, Kenworthy M, Valadon C, Owens W, Wu Z, Amaral ML, Zemke NR, Song Y, Báez-Becerra CT, Cho S, Chen C, Willier J, Cao S, Rink J, Lee J, Barcoma A, Arzavala J, Emerson N, Lu YR, Ren B, Behrens MM, Ecker JR

Cell · 2026 Apr · PMID 41819104 · Full text

Aging is a major risk factor for neurodegenerative diseases, yet the underlying epigenetic mechanisms remain unclear. Here, we generated a comprehensive single-nucleus cell atlas of brain aging across multiple brain regi... Aging is a major risk factor for neurodegenerative diseases, yet the underlying epigenetic mechanisms remain unclear. Here, we generated a comprehensive single-nucleus cell atlas of brain aging across multiple brain regions, comprising 132,551 single-cell methylomes and 72,666 joint chromatin conformation-methylome nuclei. Integration with companion transcriptomic and chromatin accessibility data yielded a cross-modality taxonomy of 36 major cell types. We observed that transposable element (TE) methylation alone distinguished age groups, showing cell-type-specific genome-wide demethylation. Chromatin conformation analysis demonstrated age-related increases in topologically associated domain (TAD) boundary strength with enhanced accessibility at CCCTC-binding factor (CTCF) binding sites. Spatial transcriptomics across 895,296 cells revealed regional heterogeneity during aging within identical cell types. Finally, we developed deep-learning models that reliably predict age-related gene expression changes using multi-modal epigenetic features, providing mechanistic insights into gene regulation. Age-related comparisons use a 2-month baseline reflecting the late-adolescent/early-young adult stage. This dataset advances our understanding of brain aging and offers potential translational applications.

Human-specific features of the cerebellum and ZP2-regulated synapse development.

Kim SK, Cherskov A, Sindhwani A … +44 more , Choi SH, Kim H, Li ML, Zhang M, Mato-Blanco X, Liu Y, Micali N, Young DM, Estacion M, Zhang Y, Ruiz-Jiménez JM, Nadkarni A, Luria V, Sindhu SK, Chatterjee I, Shibata A, Liang D, Cho H, Park S, Spajic A, Kovner R, Glavan M, Chen RJ, Risgaard RD, Li X, Pochareddy S, Karger A, Huttner A, Morozov YM, Daadi EW, Colantuoni C, Gobeske KT, Ely JJ, Hof PR, Daadi MM, Sherwood CC, Duque A, Ma S, Sousa AMM, Waxman SG, Rakic P, Santpere G, Sanders SJ, Sestan N

Cell · 2026 Mar · PMID 41819103 · Publisher ↗

Understanding the unique features of the human brain compared with non-human primates has long intrigued humankind. The cerebellum refines motor coordination and cognitive functions, contributing to the evolutionary deve... Understanding the unique features of the human brain compared with non-human primates has long intrigued humankind. The cerebellum refines motor coordination and cognitive functions, contributing to the evolutionary development of human adaptability and dexterity. To identify shared and divergent features across primates, we conducted single-nucleus transcriptomic and chromatin accessibility profiling of the adult cerebellar cortex in humans, chimpanzees, macaques, and marmosets. We revealed human-specific transcriptomic and regulatory features, particularly those involved in synaptogenesis. Notably, we identified enrichment of the sperm receptor zona pellucida glycoprotein 2 (ZP2) and its potential interactors, known for their roles in gamete interaction, in human granule cells (GCs). Experimental data show that ZP2 expression in human GCs is induced by pontine mossy fibers, reducing synaptic proteins at the pontocerebellar glomerular synapses and decreasing cerebellar neuron electrophysiological activity. This unexpected co-option of ZP2 in human-specific synapse regulation provides insights into the evolutionary specialization of the human cerebellum.

Respiratory viral infections prime accelerated lung cancer growth.

Qian W, Wei X, Barros AJ … +23 more , Ye X, Zhang H, Yu Q, Young SP, Yeatts EV, Park Y, Li C, Hao S, Almeida-Santos G, Tang J, Narasimhan H, Kirk NA, Molinary V, Li Y, Li L, Desai BN, Chen P, Park KS, Zhou AX, Sturek JM, Chen W, Cheon IS, Sun J

Cell · 2026 May · PMID 41819102 · Full text

The COVID-19 pandemic has highlighted the long-term consequences of viral pneumonia, yet its impact on cancer development remains unclear. Here, we show that patients previously hospitalized with severe COVID-19 have an... The COVID-19 pandemic has highlighted the long-term consequences of viral pneumonia, yet its impact on cancer development remains unclear. Here, we show that patients previously hospitalized with severe COVID-19 have an increased risk of subsequent lung cancer. Across multiple murine models, severe respiratory viral infections accelerated lung cancer growth, whereas vaccination mitigated infection-enhanced tumor progression. Mechanistically, prior viral pneumonia reprogrammed the lung into a pro-tumor microenvironment marked by the sustained accumulation of tumor-associated neutrophils and heightened immunosuppression. We observed persistent chromatin remodeling at key cytokine loci in immune and structural cells, linking inflammatory memory to tumor-promoting signals. Therapeutically, combined blockade of neutrophil recruitment and programmed death-ligand 1 (PD-L1) restored CD8 T cell function and suppressed tumor growth. Together, these findings establish a causal link between prior viral pneumonia and lung tumorigenesis, underscoring the need for enhanced surveillance and targeted interventions to reduce post-COVID cancer risk.

Microbiome-produced nicotinic acid controls colon regional identity and injury susceptibility.

Rispal J, Garcia JR, Palikuqi B … +13 more , Vegesna M, Vaka D, Kang SW, Trentesaux C, Du J, Realini NR, Spencer PN, Gardner JM, Hausmann A, Kattah MG, Lau KS, Boffelli D, Klein OD

Cell · 2026 Apr · PMID 41812662 · Full text

The regionalized structure of the intestinal epithelium is critical for its function, and the risk for certain diseases has a regional bias. However, how regionalization is established and how it influences disease susce... The regionalized structure of the intestinal epithelium is critical for its function, and the risk for certain diseases has a regional bias. However, how regionalization is established and how it influences disease susceptibility remain poorly understood. Here, we investigated the role of the gut microbiome-the regionalized community of microorganisms in the intestinal lumen-in promoting regionalization of the colon. We found that the proximo-distal identity of colonocytes along the organ's length is disrupted in mice lacking a microbiome and that the proximal colonic microbiome produces high levels of nicotinic acid, which induces Pparα expression to establish proximal colonocyte identity. Furthermore, we report that microbiome-driven proximal identity confers protection against tissue injury in the mouse. Finally, we determined that the human colon is regionalized and loses its proximal identity during certain disease states.

Papuan admixture predated the settlement of Palau.

Liu YC, Eakin J, Liston J … +13 more , Hunter-Anderson R, Emesiochel C, Soaladaob K, Ngirmang SO, Cheronet O, Hadden CS, Cherkinsky A, Spriggs M, Prufer KM, Mallick S, Rohland N, Pinhasi R, Reich D

Cell · 2026 Apr · PMID 41812661 · Full text

The first people reached Remote Oceania 3,000 years before present (BP), arriving roughly simultaneously in the southwest Pacific, the Marianas Archipelago, and Palau. However, no genome-wide ancient DNA data have been a... The first people reached Remote Oceania 3,000 years before present (BP), arriving roughly simultaneously in the southwest Pacific, the Marianas Archipelago, and Palau. However, no genome-wide ancient DNA data have been available from Palau, a gap we address by reporting 21 individuals from four archaeological sites dating between 2,900 and 500 BP. All had approximately 60% ancestry related to East Asians and 40% to Papuans, similar to present-day Palauans, the longest stretch of population continuity anywhere in Remote Oceania. The lengths of contiguous Papuan ancestry segments in the oldest individuals show that major admixture between Papuans and East Asians in the ancestors of all sampled Palauans began prior to first settlement. This differs from the pattern in the southwest Pacific, where sampled individuals of the Lapita archaeological culture from three different islands had almost entirely East Asian ancestry, with large amounts of Papuan admixture observed only hundreds of years later.

Ferritin aggregation cell engager for CAR T avidity engineering against refractory leukemias.

Li F, Hu Y, Wang Y … +19 more , Zhang X, Qiu S, Hu X, Wang W, Wang S, Guo P, Song C, Wang H, He C, Sun J, Yu D, Yi S, Wei J, Liu F, Zheng C, Wang J, Li Y, Ma G, Wei W

Cell · 2026 Apr · PMID 41806835 · Publisher ↗

Although promising, chimeric antigen receptor T (CAR T) cell therapy for treating leukemias still faces the critical challenge of antigen modulation, which causes resistance. Building from our clinical insight that both... Although promising, chimeric antigen receptor T (CAR T) cell therapy for treating leukemias still faces the critical challenge of antigen modulation, which causes resistance. Building from our clinical insight that both diverse types of leukemia cells and corresponding CAR T cells strongly express CD71 (a ferritin receptor), we designed a ferritin aggregation cell engager (FACE) that can anchor to the CAR T cell surface, guide CAR T cells to face leukemia cells, and facilitate CAR recognition of cognate antigens. In vitro and in vivo experiments with diverse leukemia patient-derived cells and leukemia patient-derived xenograft models show that our FACE-CAR T cells succeed in enhancing therapeutic efficacy with good biosafety, lowering the antigen threshold for overcoming antigen modulation, and even loading chemodrugs in ferritin for combination therapy. This avidity engineering provides a neotype, facile, universal, and flexible approach for improving the efficacy of CAR T cell therapy for diverse refractory leukemias.

NAD hydrolysis catalyzed by SelO is required for mitochondrial homeostasis.

Jia X, Zhang T, Yang C … +17 more , Liu K, Wu L, Diao L, Yang Y, Wu J, Li Y, Sun W, Zhang K, Jiang Y, Zhao Y, Zhang X, Jiang P, Jiang Y, Yu Q, Xiang S, Fu Y, Wang T

Cell · 2026 Apr · PMID 41806834 · Publisher ↗

The regulation of nicotinamide adenine dinucleotide (NAD) is crucial for numerous life processes. However, the mechanisms leading to NAD degradation in mitochondria remain insufficiently defined. Through in silico screen... The regulation of nicotinamide adenine dinucleotide (NAD) is crucial for numerous life processes. However, the mechanisms leading to NAD degradation in mitochondria remain insufficiently defined. Through in silico screening of potential NAD-binding proteins, we discovered a mitochondrial reaction in which NAD is hydrolyzed to nicotinamide mononucleotide (NMN) and AMP by SELENOO (SelO), using Mn as cofactor. Catalysis depends on SelO's selenocysteine-serine-serine (CSS) C-terminal residues, particularly the selenocysteine 667. In addition to broad metabolic effects, this reaction plays a pronounced role in lipid utilization via SelO directly associating with fatty acid oxidation (FAO) enzymes, and it is conserved in both mammalian cells and bacteria. This reaction is responsive to elevated matrix pH, a signal of enhanced mitochondrial respiration, and protects mitochondria from sustained metabolic overactivation. These findings reveal a conserved mechanism for spatiotemporal NAD regulation and highlight its physiological significance in both prokaryotes and eukaryotes.

Immune-microbiome coordination defines interferon setpoints in healthy humans.

Babdor J, Patel RK, Davidson B … +21 more , Koser K, Noecker C, Rahim MK, Bisanz JE, Tenvooren I, Marquez D, Calvo M, Johri V, McCarthy EE, Shaheed A, Ekstrand C, Weakley AM, Yu FB, Krip K, Shaikh KA, Amatullah H, Fiehn O, Turnbaugh PJ, Combes AJ, Fragiadakis GK, Spitzer MH

Cell · 2026 May · PMID 41806833 · Full text

Human immune systems are highly variable, with most variation attributable to non-genetic sources. The gut microbiome crucially shapes the immune system; however, its relationship with the baseline immune states of healt... Human immune systems are highly variable, with most variation attributable to non-genetic sources. The gut microbiome crucially shapes the immune system; however, its relationship with the baseline immune states of healthy humans remains incompletely understood. Therefore, we performed multi-omic profiling of 110 healthy participants through the ImmunoMicrobiome study. A factor-based integrative approach identified coordinated variation, revealing that the interferon response was amongst the most variable immune features in healthy participants. Microbiome composition, pathways, and stool metabolites varied concomitantly with interferon response pathways. Longitudinal data spanning more than a year indicated the significant stability of these parameters within individuals over time. Our study provides extensive data to examine the relationship between the immune states and microbiomes of healthy individuals at steady state, which paves the way for delineating inter-individual differences relevant for disease susceptibility and responses to therapy.

Bringing the genetically minimal cell to life on a computer in 4D.

Thornburg ZR, Maytin A, Kwon J … +15 more , Brier TA, Gilbert BR, Fu E, Gao YL, Quenneville J, Wu T, Li H, Long T, Pezeshkian W, Sun L, Bittencourt DMC, Glass JI, Mehta AP, Ha T, Luthey-Schulten Z

Cell · 2026 Apr · PMID 41806832 · Publisher ↗

We present a whole-cell spatial and kinetic model for the ∼100 min cell cycle of the genetically minimal bacterium JCVI-syn3A. We simulate the complete cell cycle in 4D (space and time), including all genetic information... We present a whole-cell spatial and kinetic model for the ∼100 min cell cycle of the genetically minimal bacterium JCVI-syn3A. We simulate the complete cell cycle in 4D (space and time), including all genetic information processes, metabolic networks, growth, and cell division. By integrating hybrid computational methods, we model the dynamics of morphological transformations. Growth is driven by insertion of lipids and membrane proteins and constrained by fluorescence imaging data. Chromosome replication and segregation are controlled by the essential structural maintenance of chromosome proteins, analogous to condensin (SMC) and topoisomerase proteins in Brownian dynamics simulations, with replication rates responding to deoxyribonucleotide triphosphate (dNTP) pools from metabolism. The model captures the origin-to-terminus ratio measured in our DNA sequencing and recovers other experimental measurements, such as doubling time, mRNA half-lives, protein distributions, and ribosome counts. Because of stochasticity, each replicate cell is unique. We predict not only the average behavior of partitioning to daughter cells but also the heterogeneity among them.

Somatic genomics as a discovery engine for biomedicine.

Brunner SF, Martincorena I, Mannino G … +5 more , Fox CS, Stratton MR, Rubens JR, Campbell PJ, Zhu H

Cell · 2026 Mar · PMID 41795441 · Publisher ↗

Somatic mutations, or genetic changes occurring in cells after conception, are widespread in healthy tissues but are conventionally viewed as signs of pre-cancer or simply a consequence of aging. However, an emerging bod... Somatic mutations, or genetic changes occurring in cells after conception, are widespread in healthy tissues but are conventionally viewed as signs of pre-cancer or simply a consequence of aging. However, an emerging body of work has shown that somatic mutations can drive or protect against disease, which could inspire novel therapeutic strategies. The unexpected depth of genetic diversity within individuals also provides a massive substrate for discovering mutant genes selected for by disease. For instance, mutant hematopoietic cells can exacerbate inflammatory disease, and mutant hepatocytes can protect against liver disease. This suggests that somatic mutations, whether maladaptive or beneficial, could provide crucial insights into disease mechanisms, history, and reversal strategies. Somatic genetics offers a powerful, complementary approach to traditional germline genetics, which has had an enormous impact on biomedicine and drug development. This review explores the factors that shape the landscape of somatic mosaicism and discusses somatic mutations that cause or protect from disease. We highlight how somatic mutations are becoming a key discovery engine for disease genetics, moving rapidly toward drug target identification and clinical translation.

Harnessing skull immunity for brain drug delivery.

McCullough SJC, Stevenson TJ, Rustenhoven J

Cell · 2026 Mar · PMID 41795440 · Publisher ↗

Therapeutic delivery to the brain after stroke is limited by the blood-brain barrier. In this issue of Cell, Gao et al. bypass this obstacle by harnessing skull bone marrow immune cells to deliver drug-loaded nanoparticl... Therapeutic delivery to the brain after stroke is limited by the blood-brain barrier. In this issue of Cell, Gao et al. bypass this obstacle by harnessing skull bone marrow immune cells to deliver drug-loaded nanoparticles to injured brain regions, improving outcomes and revealing a feasible translational strategy for targeted CNS therapy.

CLIM-TIME links genetic cancer drivers to immune landscapes.

Zhu L, Yang C, Bernards R … +1 more , Wang C

Cell · 2026 Mar · PMID 41795439 · Publisher ↗

Immunotherapy resistance is associated with immune-privileged microenvironments, yet the interacting role of tumor-intrinsic genetics remains unclear. In this issue of Cell, Wang et al. introduce CLIM-TIME, a spatially r... Immunotherapy resistance is associated with immune-privileged microenvironments, yet the interacting role of tumor-intrinsic genetics remains unclear. In this issue of Cell, Wang et al. introduce CLIM-TIME, a spatially resolved in vivo CRISPR screening platform linking loss of tumor suppressor genes to distinct metastatic immune architectures and divergent responses to immunotherapy.

Deltaviruses spread through a viral Trojan Horse.

McKellar J, Fouillen A, Lyonnais S … +24 more , Blanchard MP, Seigneuret F, Trullo A, Denis Z, Sleiman R, Le Bon B, Berry L, Kumarasinghe L, Bouget J, Apostel A, Bacia-Verloop M, De Rossi S, Messaoud-Nacer Y, Colomb S, Desagher S, Vila IK, Laguette N, Granier S, de Rocquigny H, Gaudin R, Courgnaud V, Gutsche I, Hepojoki J, Majzoub K

Cell · 2026 Apr · PMID 41794028 · Publisher ↗

Hepatitis D-like satellite viruses, known as deltaviruses, have been recently discovered in a wide range of animals. These viruses are thought to expropriate glycoproteins from helper viruses to form infectious particles... Hepatitis D-like satellite viruses, known as deltaviruses, have been recently discovered in a wide range of animals. These viruses are thought to expropriate glycoproteins from helper viruses to form infectious particles. Here, we challenge this paradigm and demonstrate that deltaviruses are packaged within helper virus particles, using them as viral Trojan Horses for cell entry. By leveraging orthogonal electron and optical super-resolution microscopy, we visualize deltaviruses enclosed within virions from rhabdo-, herpes-, and arenavirus families. We show that this conserved hitchhiking mechanism ensures concomitant deltavirus-helper virus spread, thereby promoting the dissemination of deltaviruses, broadening their host range, and expanding their tropism. Our findings reveal a previously unrecognized mode of viral transmission, providing a framework to investigate overlooked deltavirus infections outside of the human liver.

Dynamics of natural selection preceding human viral epidemics and pandemics.

Havens JL, Kosakovsky Pond SL, Zehr JD … +5 more , Pekar JE, Parker E, Worobey M, Andersen KG, Wertheim JO

Cell · 2026 Apr · PMID 41794027 · Full text

Using a phylogenetic framework to characterize natural selection, we investigate the hypothesis that zoonotic viruses require adaptation prior to zoonosis to sustain human-to-human transmission. Examining the zoonotic em... Using a phylogenetic framework to characterize natural selection, we investigate the hypothesis that zoonotic viruses require adaptation prior to zoonosis to sustain human-to-human transmission. Examining the zoonotic emergence of Ebola virus, Marburg virus, mpox virus, influenza A virus, and SARS-CoV-2, we find no evidence of a change in selection intensity immediately prior to outbreaks in humans compared with typical selection within reservoir hosts. We found a change in selection on SARS-CoV in an intermediate host. We conclude that extensive pre-zoonotic adaptation is not necessary for human-to-human transmission of zoonotic viruses. In contrast, the reemergence of H1N1 influenza A virus in 1977 was preceded by a shift in selection intensity, consistent with the hypothesis of passage in a laboratory setting. Holistic phylogenetic analysis of selection regimes can be used to detect evolutionary signals of host switching or laboratory passage, providing insight into the circumstances of past and future viral emergence.

Selective targeting of endothelial and perivascular angiocrine ROCK2 treats liver fibrosis.

Hu Y, Yang B, Xiao C … +34 more , Yang X, Zhang H, Yang P, Du X, Zhang G, Liang B, Bai N, Zhang D, Wu D, Luo Q, Teng Y, Chen Y, Guo Z, Zhao C, Ye T, Chai D, Qi X, Zhong W, Chen J, Dong H, Gao J, He H, Chang J, Li X, Peng L, Rafii S, Friedman SL, Yi C, Cai Y, Zhao Y, Wang H, Wang C, Cao Z, Ding BS

Cell · 2026 Apr · PMID 41794026 · Publisher ↗

Liver fibrosis is a prominent pathological process contributing to death from hepatic diseases, including metabolic dysfunction-associated steatohepatitis (MASH). There is limited treatment for liver fibrosis. Here, we f... Liver fibrosis is a prominent pathological process contributing to death from hepatic diseases, including metabolic dysfunction-associated steatohepatitis (MASH). There is limited treatment for liver fibrosis. Here, we find that upregulation of Rho-associated coiled-coil containing kinase 2 (ROCK2) in liver endothelial cells (ECs) and perivascular hepatic stellate cells (HSCs) causes vascular niche dysfunction and triggers pro-fibrotic angiocrine signaling. Based on the vascular druggable target ROCK2, we developed its selective inhibitor showing anti-fibrotic potency in preclinical models and human patients. The ROCK2-selective inhibitor TDI01 restored vascular phenotype and alleviated fibrosis in rodent and minipig MASH models. A phase 1 clinical trial (ChiCTR2200058868) of TDI01 demonstrated its favorable pharmacokinetics and safety in humans. An extended clinical trial (ChiCTR2400082056) showed a trend toward reducing liver fibrosis in five of six patients after TDI01 treatment. Thus, we discover vascular ROCK2 as a pro-fibrotic target, and development of an inhibitor selectively targeting angiocrine ROCK2 may provide a treatment of liver fibrosis in human patients.

β-hydroxybutyrate enhances the metabolic fitness of CAR T cells in cancer.

Liu S, Guruprasad P, Ramasubramanian R … +45 more , Madhu B, Paruzzo L, Han K, Kelly A, Shestov A, Xu HN, Carturan A, Zhou C, Amses KR, Afriat A, Litichevskiy L, Lin J, Dubowitz E, Tangal N, Zhang J, McSween A, Tan M, Stella F, Lee A, Nason S, Hua X, Schneider M, Sleeman M, Zhang Y, Gabrielli G, Yang Z, Pajarillo R, Patel R, Ghilardi G, Patel V, Joshi A, Jiang S, Jiang Y, Porazzi P, Tchou JC, Keith B, Li M, Chong E, Schuster SJ, Milone M, Rabinowitz J, O'Connor RS, Thaiss CA, Levy M, Ruella M

Cell · 2026 Mar · PMID 41794025 · Full text

The influence of lifestyle factors, such as diet, on the effectiveness of T cell-mediated cancer immunotherapies remains unclear. Here, we demonstrate that the ketogenic diet (KD)-induced ketone metabolite β-hydroxybutyr... The influence of lifestyle factors, such as diet, on the effectiveness of T cell-mediated cancer immunotherapies remains unclear. Here, we demonstrate that the ketogenic diet (KD)-induced ketone metabolite β-hydroxybutyrate (BHB) augments chimeric antigen receptor (CAR) T cell function across multiple preclinical cancer models. Mechanistically, BHB supports the tricarboxylic acid (TCA) cycle in CAR T cells, driving oxidative phosphorylation and energy generation. This metabolic enhancement is associated with CAR T cell proliferation and cytokine production, thereby leading to superior tumor control. Furthermore, BHB induces global transcriptional and epigenetic reprogramming in activated CAR T cells, which promotes an enhanced effector and metabolic profile. Lastly, in a prospective cohort of healthy volunteers, administration of BHB enhanced peripheral T cell oxygen consumption, mitochondrial membrane potential, and ATP production. Our results suggest that metabolite intervention via BHB supplementation is a promising, readily implementable strategy to improve adoptive T cell function against various cancers.
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