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1.
Cell Rep ; 38(12): 110553, 2022 03 22.
Artículo en Inglés | MEDLINE | ID: mdl-35320716

RESUMEN

The Btla inhibitory receptor limits innate and adaptive immune responses, both preventing the development of autoimmune disease and restraining anti-viral and anti-tumor responses. It remains unclear how the functions of Btla in diverse lymphocytes contribute to immunoregulation. Here, we show that Btla inhibits activation of genes regulating metabolism and cytokine signaling, including Il6 and Hif1a, indicating a regulatory role in humoral immunity. Within mucosal Peyer's patches, we find T-cell-expressed Btla-regulated Tfh cells, while Btla in T or B cells regulates GC B cell numbers. Treg-expressed Btla is required for cell-intrinsic Treg homeostasis that subsequently controls GC B cells. Loss of Btla in lymphocytes results in increased IgA bound to intestinal bacteria, correlating with altered microbial homeostasis and elevations in commensal and pathogenic bacteria. Together our studies provide important insights into how Btla functions as a checkpoint in diverse conventional and regulatory lymphocyte subsets to influence systemic immune responses.


Asunto(s)
Inmunidad Humoral , Linfocitos T Reguladores , Linfocitos B , Mucosa Intestinal , Transducción de Señal
2.
Cell Rep ; 33(10): 108445, 2020 12 08.
Artículo en Inglés | MEDLINE | ID: mdl-33242407

RESUMEN

Understanding the effects of microgravity on human organs is crucial to exploration of low-earth orbit, the moon, and beyond. Drosophila can be sent to space in large numbers to examine the effects of microgravity on heart structure and function, which is fundamentally conserved from flies to humans. Flies reared in microgravity exhibit cardiac constriction with myofibrillar remodeling and diminished output. RNA sequencing (RNA-seq) in isolated hearts revealed reduced expression of sarcomeric/extracellular matrix (ECM) genes and dramatically increased proteasomal gene expression, consistent with the observed compromised, smaller hearts and suggesting abnormal proteostasis. This was examined further on a second flight in which we found dramatically elevated proteasome aggregates co-localizing with increased amyloid and polyQ deposits. Remarkably, in long-QT causing sei/hERG mutants, proteasomal gene expression at 1g, although less than the wild-type expression, was nevertheless increased in microgravity. Therefore, cardiac remodeling and proteostatic stress may be a fundamental response of heart muscle to microgravity.


Asunto(s)
Contracción Miocárdica/fisiología , Miocardio/patología , Ingravidez/efectos adversos , Animales , Remodelación Atrial/fisiología , Drosophila melanogaster/metabolismo , Matriz Extracelular/genética , Matriz Extracelular/metabolismo , Expresión Génica/genética , Expresión Génica/fisiología , Corazón/fisiología , Modelos Animales , Miocardio/metabolismo , Sarcómeros/genética , Sarcómeros/metabolismo , Remodelación Ventricular/fisiología
3.
Front Microbiol ; 11: 892, 2020.
Artículo en Inglés | MEDLINE | ID: mdl-32499766

RESUMEN

Dietary emulsifiers are widely used in industrially processed foods, although the effects of these food additives on human gut microbiota are not well studied. Here, we investigated the effects of five different emulsifiers [glycerol monoacetate, glycerol monostearate, glycerol monooleate, propylene glycol monostearate, and sodium stearoyl lactylate (SSL)] on fecal microbiota in vitro. We found that 0.025% (w/v) of SSL reduced the relative abundance of the bacterial class Clostridia and others. The relative abundance of the families Clostridiaceae, Lachnospiraceae, and Ruminococcaceae was substantially reduced whereas that of Bacteroidaceae and Enterobacteriaceae was increased. Given the marked impact of SSL on Clostridia, we used genome reconstruction to predict community-wide production of short-chain fatty acids, which were experimentally assessed by GC-MS analysis. SSL significantly reduced concentrations of butyrate, and increased concentrations of propionate compared to control cultures. The presence of SSL increased lipopolysaccharide, LPS and flagellin in cultured communities, thereby enhancing the proinflammatory potential of SSL-selected bacterial communities.

4.
Dis Model Mech ; 13(7)2020 07 20.
Artículo en Inglés | MEDLINE | ID: mdl-32471864

RESUMEN

The identification of genetic variants that predispose individuals to cardiovascular disease and a better understanding of their targets would be highly advantageous. Genome-wide association studies have identified variants that associate with QT-interval length (a measure of myocardial repolarization). Three of the strongest associating variants (single-nucleotide polymorphisms) are located in the putative promotor region of CNOT1, a gene encoding the central CNOT1 subunit of CCR4-NOT: a multifunctional, conserved complex regulating gene expression and mRNA stability and turnover. We isolated the minimum fragment of the CNOT1 promoter containing all three variants from individuals homozygous for the QT risk alleles and demonstrated that the haplotype associating with longer QT interval caused reduced reporter expression in a cardiac cell line, suggesting that reduced CNOT1 expression might contribute to abnormal QT intervals. Systematic siRNA-mediated knockdown of CCR4-NOT components in human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) revealed that silencing CNOT1 and other CCR4-NOT genes reduced their proliferative capacity. Silencing CNOT7 also shortened action potential duration. Furthermore, the cardiac-specific knockdown of Drosophila orthologs of CCR4-NOT genes in vivo (CNOT1/Not1 and CNOT7/8/Pop2) was either lethal or resulted in dilated cardiomyopathy, reduced contractility or a propensity for arrhythmia. Silencing CNOT2/Not2, CNOT4/Not4 and CNOT6/6L/twin also affected cardiac chamber size and contractility. Developmental studies suggested that CNOT1/Not1 and CNOT7/8/Pop2 are required during cardiac remodeling from larval to adult stages. To summarize, we have demonstrated how disease-associated genes identified by GWAS can be investigated by combining human cardiomyocyte cell-based and whole-organism in vivo heart models. Our results also suggest a potential link of CNOT1 and CNOT7/8 to QT alterations and further establish a crucial role of the CCR4-NOT complex in heart development and function.This article has an associated First Person interview with the first author of the paper.


Asunto(s)
Silenciador del Gen , Células Madre Pluripotentes Inducidas/metabolismo , Síndrome de QT Prolongado/genética , Miocitos Cardíacos/metabolismo , Factores de Transcripción/genética , Potenciales de Acción , Animales , Animales Modificados Genéticamente , Proliferación Celular , Proteínas de Drosophila/genética , Proteínas de Drosophila/metabolismo , Drosophila melanogaster/genética , Drosophila melanogaster/metabolismo , Exorribonucleasas/genética , Exorribonucleasas/metabolismo , Regulación del Desarrollo de la Expresión Génica , Estudio de Asociación del Genoma Completo , Células HeLa , Frecuencia Cardíaca , Humanos , Células Madre Pluripotentes Inducidas/patología , Péptidos y Proteínas de Señalización Intracelular/genética , Péptidos y Proteínas de Señalización Intracelular/metabolismo , Síndrome de QT Prolongado/metabolismo , Síndrome de QT Prolongado/patología , Síndrome de QT Prolongado/fisiopatología , Morfogénesis , Miocitos Cardíacos/patología , Proteínas de Unión al ARN/genética , Proteínas de Unión al ARN/metabolismo , Proteínas Represoras/genética , Proteínas Represoras/metabolismo , Ribonucleasas/genética , Ribonucleasas/metabolismo , Factores de Transcripción/metabolismo
5.
Cell Rep ; 30(6): 1753-1766.e6, 2020 02 11.
Artículo en Inglés | MEDLINE | ID: mdl-32049008

RESUMEN

Growing evidence supports the importance of gut microbiota in the control of tumor growth and response to therapy. Here, we select prebiotics that can enrich bacterial taxa that promote anti-tumor immunity. Addition of the prebiotics inulin or mucin to the diet of C57BL/6 mice induces anti-tumor immune responses and inhibition of BRAF mutant melanoma growth in a subcutaneously implanted syngeneic mouse model. Mucin fails to inhibit tumor growth in germ-free mice, indicating that the gut microbiota is required for the activation of the anti-tumor immune response. Inulin and mucin drive distinct changes in the microbiota, as inulin, but not mucin, limits tumor growth in syngeneic mouse models of colon cancer and NRAS mutant melanoma and enhances the efficacy of a MEK inhibitor against melanoma while delaying the emergence of drug resistance. We highlight the importance of gut microbiota in anti-tumor immunity and the potential therapeutic role for prebiotics in this process.


Asunto(s)
Microbioma Gastrointestinal/efectos de los fármacos , Inulina/uso terapéutico , Melanoma/tratamiento farmacológico , Mucinas/uso terapéutico , Prebióticos/análisis , Animales , Inulina/farmacología , Melanoma/patología , Ratones , Mucinas/farmacología
6.
Nat Commun ; 10(1): 1492, 2019 04 02.
Artículo en Inglés | MEDLINE | ID: mdl-30940817

RESUMEN

Accumulating evidence points to an important role for the gut microbiome in anti-tumor immunity. Here, we show that altered intestinal microbiota contributes to anti-tumor immunity, limiting tumor expansion. Mice lacking the ubiquitin ligase RNF5 exhibit attenuated activation of the unfolded protein response (UPR) components, which coincides with increased expression of inflammasome components, recruitment and activation of dendritic cells and reduced expression of antimicrobial peptides in intestinal epithelial cells. Reduced UPR expression is also seen in murine and human melanoma tumor specimens that responded to immune checkpoint therapy. Co-housing of Rnf5-/- and WT mice abolishes the anti-tumor immunity and tumor inhibition phenotype, whereas transfer of 11 bacterial strains, including B. rodentium, enriched in Rnf5-/- mice, establishes anti-tumor immunity and restricts melanoma growth in germ-free WT mice. Altered UPR signaling, exemplified in Rnf5-/- mice, coincides with altered gut microbiota composition and anti-tumor immunity to control melanoma growth.


Asunto(s)
Proliferación Celular , Microbioma Gastrointestinal , Melanoma/inmunología , Melanoma/microbiología , Proteínas de la Membrana/deficiencia , Ubiquitina-Proteína Ligasas/deficiencia , Animales , Péptidos Catiónicos Antimicrobianos/inmunología , Bacterias/clasificación , Bacterias/genética , Bacterias/aislamiento & purificación , Humanos , Intestinos/inmunología , Intestinos/microbiología , Melanoma/enzimología , Melanoma/fisiopatología , Proteínas de la Membrana/genética , Proteínas de la Membrana/inmunología , Ratones , Ratones Endogámicos C57BL , Ratones Noqueados , Ubiquitina-Proteína Ligasas/genética , Ubiquitina-Proteína Ligasas/inmunología , Respuesta de Proteína Desplegada
7.
Cell Rep ; 16(12): 3297-3310, 2016 09 20.
Artículo en Inglés | MEDLINE | ID: mdl-27653691

RESUMEN

Paneth cells are a highly specialized population of intestinal epithelial cells located in the crypt adjacent to Lgr5(+) stem cells, from which they differentiate through a process that requires downregulation of the Notch pathway. Their ability to store and release antimicrobial peptides protects the host from intestinal pathogens and controls intestinal inflammation. Here, we show that PKCλ/ι is required for Paneth cell differentiation at the level of Atoh1 and Gfi1, through the control of EZH2 stability by direct phosphorylation. The selective inactivation of PKCλ/ι in epithelial cells results in the loss of mature Paneth cells, increased apoptosis and inflammation, and enhanced tumorigenesis. Importantly, PKCλ/ι expression in human Paneth cells decreases with progression of Crohn's disease. Kaplan-Meier survival analysis of colorectal cancer (CRC) patients revealed that low PRKCI levels correlated with significantly worse patient survival rates. Therefore, PKCλ/ι is a negative regulator of intestinal inflammation and cancer through its role in Paneth cell homeostasis.


Asunto(s)
Transformación Celular Neoplásica/metabolismo , Inflamación/metabolismo , Mucosa Intestinal/metabolismo , Isoenzimas/metabolismo , Células de Paneth/metabolismo , Proteína Quinasa C/metabolismo , Animales , Diferenciación Celular/inmunología , Transformación Celular Neoplásica/patología , Neoplasias Colorrectales/metabolismo , Neoplasias Colorrectales/mortalidad , Neoplasias Colorrectales/patología , Enfermedad de Crohn/metabolismo , Enfermedad de Crohn/patología , Humanos , Inflamación/patología , Mucosa Intestinal/patología , Estimación de Kaplan-Meier , Ratones , Ratones Endogámicos C57BL , Células de Paneth/patología
8.
Cell ; 141(1): 142-53, 2010 Apr 02.
Artículo en Inglés | MEDLINE | ID: mdl-20371351

RESUMEN

Heart diseases are the most common causes of morbidity and death in humans. Using cardiac-specific RNAi-silencing in Drosophila, we knocked down 7061 evolutionarily conserved genes under conditions of stress. We present a first global roadmap of pathways potentially playing conserved roles in the cardiovascular system. One critical pathway identified was the CCR4-Not complex implicated in transcriptional and posttranscriptional regulatory mechanisms. Silencing of CCR4-Not components in adult Drosophila resulted in myofibrillar disarray and dilated cardiomyopathy. Heterozygous not3 knockout mice showed spontaneous impairment of cardiac contractility and increased susceptibility to heart failure. These heart defects were reversed via inhibition of HDACs, suggesting a mechanistic link to epigenetic chromatin remodeling. In humans, we show that a common NOT3 SNP correlates with altered cardiac QT intervals, a known cause of potentially lethal ventricular tachyarrhythmias. Thus, our functional genome-wide screen in Drosophila can identify candidates that directly translate into conserved mammalian genes involved in heart function.


Asunto(s)
Drosophila melanogaster/fisiología , Modelos Animales , Animales , Cardiomiopatías/genética , Cardiomiopatías/fisiopatología , Drosophila melanogaster/embriología , Drosophila melanogaster/genética , Femenino , Estudio de Asociación del Genoma Completo , Corazón/embriología , Corazón/fisiología , Humanos , Masculino , Ratones , Ratones Noqueados , Regiones Promotoras Genéticas , Interferencia de ARN
9.
Aging Cell ; 8(5): 542-52, 2009 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-19594484

RESUMEN

dTOR (target of rapamycin) and dFoxo respond to changes in the nutritional environment to induce a broad range of responses in multiple tissue types. Both dTOR and dFoxo have been demonstrated to control the rate of age-related decline in cardiac function. Here, we show that the Eif4e-binding protein (d4eBP) is sufficient to protect long-term cardiac function against age-related decline and that up-regulation of dEif4e is sufficient to recapitulate the effects of high dTOR or insulin signaling. We also provide evidence that d4eBP acts tissue-autonomously and downstream of dTOR and dFoxo in the myocardium, where it enhances cardiac stress resistance and maintains normal heart rate and myogenic rhythm. Another effector of dTOR and insulin signaling, dS6K, may influence cardiac aging nonautonomously through its activity in the insulin-producing cells, possibly by regulating dilp2 expression. Thus, elevating d4eBP activity in cardiac tissue represents an effective organ-specific means for slowing or reversing cardiac functional changes brought about by normal aging.


Asunto(s)
Proteínas de Drosophila/fisiología , Drosophila/crecimiento & desarrollo , Factores de Transcripción Forkhead/fisiología , Péptidos y Proteínas de Señalización Intracelular/fisiología , Factores de Iniciación de Péptidos/fisiología , Fosfatidilinositol 3-Quinasas/fisiología , Envejecimiento/fisiología , Animales , Proteínas de Drosophila/genética , Factor 4E Eucariótico de Iniciación/fisiología , Factores de Transcripción Forkhead/genética , Regulación del Desarrollo de la Expresión Génica , Corazón/crecimiento & desarrollo , Corazón/fisiología , Péptidos y Proteínas de Señalización Intracelular/genética , Esperanza de Vida , Mutación , Factores de Iniciación de Péptidos/genética , Fosfatidilinositol 3-Quinasas/genética , Proteínas Quinasas , Interferencia de ARN/fisiología , Proteínas Quinasas S6 Ribosómicas/genética , Proteínas Quinasas S6 Ribosómicas/metabolismo , Serina-Treonina Quinasas TOR , Vertebrados/crecimiento & desarrollo , Vertebrados/fisiología
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