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1.
Cell Rep ; 33(9): 108460, 2020 12 01.
Artigo em Inglês | MEDLINE | ID: mdl-33264623

RESUMO

Technologies to reprogram cell-type specification have revolutionized the fields of regenerative medicine and disease modeling. Currently, the selection of fate-determining factors for cell reprogramming applications is typically a laborious and low-throughput process. Therefore, we use high-throughput pooled CRISPR activation (CRISPRa) screens to systematically map human neuronal cell fate regulators. We utilize deactivated Cas9 (dCas9)-based gene activation to target 1,496 putative transcription factors (TFs) in the human genome. Using a reporter of neuronal commitment, we profile the neurogenic activity of these factors in human pluripotent stem cells (PSCs), leading to a curated set of pro-neuronal factors. Activation of pairs of TFs reveals neuronal cofactors, including E2F7, RUNX3, and LHX8, that improve conversion efficiency, subtype specificity, and maturation of neuronal cell types. Finally, using multiplexed gene regulation with orthogonal CRISPR systems, we demonstrate improved neuronal differentiation with concurrent activation and repression of target genes, underscoring the power of CRISPR-based gene regulation for programming complex cellular phenotypes.


Assuntos
Sistemas CRISPR-Cas/genética , Regulação da Expressão Gênica/genética , Neurônios/metabolismo , Ativação Transcricional/genética , Diferenciação Celular , Humanos
2.
Nat Commun ; 10(1): 386, 2019 01 23.
Artigo em Inglês | MEDLINE | ID: mdl-30674877

RESUMO

Excitatory synapse formation during development involves the complex orchestration of both structural and functional alterations at the postsynapse. However, the molecular mechanisms that underlie excitatory synaptogenesis are only partially resolved, in part because the internal machinery of developing synapses is largely unknown. To address this, we apply a chemicogenetic approach, in vivo biotin identification (iBioID), to discover aspects of the proteome of nascent synapses. This approach uncovered sixty proteins, including a previously uncharacterized protein, CARMIL3, which interacts in vivo with the synaptic cytoskeletal regulator proteins SrGAP3 (or WRP) and actin capping protein. Using new CRISPR-based approaches, we validate that endogenous CARMIL3 is localized to developing synapses where it facilitates the recruitment of capping protein and is required for spine structural maturation and AMPAR recruitment associated with synapse unsilencing. Together these proteomic and functional studies reveal a previously unknown mechanism important for excitatory synapse development in the developing perinatal brain.


Assuntos
Citoesqueleto/metabolismo , Potenciais Pós-Sinápticos Excitadores/fisiologia , Proteoma/metabolismo , Proteômica , Sinapses/metabolismo , Proteínas de Capeamento de Actina/genética , Proteínas de Capeamento de Actina/metabolismo , Animais , Biotina , Sistemas CRISPR-Cas , Repetições Palindrômicas Curtas Agrupadas e Regularmente Espaçadas , Proteínas do Citoesqueleto/metabolismo , Espinhas Dendríticas/metabolismo , Proteínas Ativadoras de GTPase , Regulação da Expressão Gênica , Células HEK293 , Humanos , Camundongos Endogâmicos C57BL , Proteínas dos Microfilamentos/genética , Proteínas dos Microfilamentos/metabolismo , Microtúbulos/metabolismo , Neurogênese/genética , Neurogênese/fisiologia , Neurônios/metabolismo , Proteoma/genética , Sinapses/genética
3.
J Am Soc Nephrol ; 29(1): 104-117, 2018 01.
Artigo em Inglês | MEDLINE | ID: mdl-29018138

RESUMO

Preconditioning with a low dose of endotoxin confers unparalleled protection against otherwise lethal models of sepsis. The mechanisms of preconditioning have been investigated extensively in isolated immune cells such as macrophages. However, the role of tissue in mediating the protective response generated by preconditioning remains unknown. Here, using the kidney as a model organ, we investigated cell type-specific responses to preconditioning. Compared with preadministration of vehicle, endotoxin preconditioning in the cecal ligation and puncture mouse model of sepsis led to significantly enhanced survival and reduced bacterial load in several organs. Furthermore, endotoxin preconditioning reduced serum levels of proinflammatory cytokines, upregulated molecular pathways involved in phagocytosis, and prevented the renal function decline and injury induced in mice by a toxic dose of endotoxin. The protective phenotype involved the clustering of macrophages around S1 segments of proximal tubules, and full renal protection required both macrophages and renal tubular cells. Using unbiased S1 transcriptomic and tissue metabolomic approaches, we identified multiple protective molecules that were operative in preconditioned animals, including molecules involved in antibacterial defense, redox balance, and tissue healing. We conclude that preconditioning reprograms macrophages and tubules to generate a protective environment, in which tissue health is preserved and immunity is controlled yet effective. Endotoxin preconditioning can thus be used as a discovery platform, and understanding the role and participation of both tissue and macrophages will help refine targeted therapies for sepsis.


Assuntos
Reprogramação Celular/efeitos dos fármacos , Túbulos Renais Proximais/patologia , Túbulos Renais Proximais/fisiopatologia , Lipopolissacarídeos/farmacologia , Macrófagos/fisiologia , Sepse/prevenção & controle , Animais , Arginina/metabolismo , Carga Bacteriana , Quimera , Citocinas/sangue , Modelos Animais de Doenças , Masculino , Metaboloma , Camundongos , Camundongos Knockout , Fagocitose , Sepse/sangue , Succinatos/metabolismo , Taxa de Sobrevida , Receptor 4 Toll-Like/genética , Receptor 4 Toll-Like/metabolismo , Transcriptoma
4.
J Immunol Res ; 2017: 4609502, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-29181415

RESUMO

STAT3 is a transcriptional regulator that plays an important role in coordinating inflammation and immunity. In addition, there is a growing appreciation of the role STAT3 signaling plays in response to organ injury following diverse insults. Acute kidney injury (AKI) from ischemia-reperfusion injury is a common clinical entity with devastating consequences, and the recognition that endothelial alterations contribute to kidney dysfunction in this setting is of growing interest. Consequently, we used a mouse with a genetic deletion of Stat3 restricted to the endothelium to examine the role of STAT3 signaling in the pathophysiology of ischemic AKI. In a mouse model of ischemic AKI, the loss of endothelial STAT3 signaling significantly exacerbated kidney dysfunction, morphologic injury, and proximal tubular oxidative stress. The increased severity of ischemic AKI was associated with more robust endothelial-leukocyte adhesion and increased tissue accumulation of F4/80+ macrophages. Moreover, important proximal tubular adaptive mechanisms to injury were diminished in association with decreased tissue mRNA levels of the epithelial cell survival cytokine IL-22. In aggregate, these findings suggest that the endothelial STAT3 signaling plays an important role in limiting kidney dysfunction in ischemic AKI and that selective pharmacologic activation of endothelial STAT3 signaling could serve as a potential therapeutic target.


Assuntos
Injúria Renal Aguda/imunologia , Células Endoteliais/fisiologia , Rim/patologia , Macrófagos/imunologia , Traumatismo por Reperfusão/imunologia , Fator de Transcrição STAT3/metabolismo , Animais , Células Cultivadas , Modelos Animais de Doenças , Interleucinas/metabolismo , Rim/diagnóstico por imagem , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Knockout , Artéria Renal/cirurgia , Fator de Transcrição STAT3/genética , Transdução de Sinais , Interleucina 22
5.
Chembiochem ; 18(18): 1807-1813, 2017 09 19.
Artigo em Inglês | MEDLINE | ID: mdl-28703362

RESUMO

Protein expression and localization are often studied in vivo by tagging molecules with green fluorescent protein (GFP), yet subtle changes in protein levels are not easily detected. To develop a sensitive in vivo method to amplify fluorescence signals and allow cell-specific quantification of protein abundance changes, we sought to apply an enzyme-activated cellular fluorescence system in vivo by delivering ester-masked fluorophores to Caenorhabditis elegans neurons expressing porcine liver esterase (PLE). To aid uptake into sensory neuron membranes, we synthesized two novel fluorogenic hydrolase substrates with long hydrocarbon tails. Recombinant PLE activated these fluorophores in vitro. In vivo activation occurred in sensory neurons, along with potent activation in intestinal lysosomes quantifiable by imaging and microplate and partially attributable to gut esterase 1 (GES-1) activity. These data demonstrate the promise of biorthogonal hydrolases and their fluorogenic substrates as in vivo neuronal imaging tools and for characterizing endogenous C. elegans hydrolase substrate specificities.


Assuntos
Caenorhabditis elegans/metabolismo , Esterases/metabolismo , Corantes Fluorescentes/metabolismo , Animais , Meios de Contraste/química , Meios de Contraste/metabolismo , Esterases/genética , Corantes Fluorescentes/química , Microscopia de Fluorescência , Neurônios/metabolismo , RNA Mensageiro/metabolismo , Especificidade por Substrato , Suínos
6.
Am J Physiol Renal Physiol ; 310(8): F717-F725, 2016 04 15.
Artigo em Inglês | MEDLINE | ID: mdl-26764206

RESUMO

The metabolic status of the kidney is a determinant of injury susceptibility and a measure of progression for many disease processes; however, noninvasive modalities to assess kidney metabolism are lacking. In this study, we employed positron emission tomography (PET) and intravital multiphoton microscopy (MPM) to assess cortical and proximal tubule glucose tracer uptake, respectively, following experimental perturbations of kidney metabolism. Applying dynamic image acquisition PET with 2-18fluoro-2-deoxyglucose (18F-FDG) and tracer kinetic modeling, we found that an intracellular compartment in the cortex of the kidney could be distinguished from the blood and urine compartments in animals. Given emerging literature that the tumor suppressor protein p53 is an important regulator of cellular metabolism, we demonstrated that PET imaging was able to discern a threefold increase in cortical 18F-FDG uptake following the pharmacological inhibition of p53 in animals. Intravital MPM with the fluorescent glucose analog 2-[N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino]-2-deoxyglucose (2-NBDG) provided increased resolution and corroborated these findings at the level of the proximal tubule. Extending our observation of p53 inhibition on proximal tubule glucose tracer uptake, we demonstrated by intravital MPM that pharmacological inhibition of p53 diminishes mitochondrial potential difference. We provide additional evidence that inhibition of p53 alters key metabolic enzymes regulating glycolysis and increases intermediates of glycolysis. In summary, we provide evidence that PET is a valuable tool for examining kidney metabolism in preclinical and clinical studies, intravital MPM is a powerful adjunct to PET in preclinical studies of metabolism, and p53 inhibition alters basal kidney metabolism.


Assuntos
Glucose/metabolismo , Rim/diagnóstico por imagem , Microscopia de Fluorescência por Excitação Multifotônica/métodos , Tomografia por Emissão de Pósitrons/métodos , Animais , Desoxiglucose , Radioisótopos de Flúor , Rim/metabolismo , Masculino , Camundongos , Ratos , Ratos Sprague-Dawley
7.
J Am Soc Nephrol ; 26(6): 1347-62, 2015 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-25398784

RESUMO

Preconditioning is a preventative approach, whereby minimized insults generate protection against subsequent larger exposures to the same or even different insults. In immune cells, endotoxin preconditioning downregulates the inflammatory response and yet, preserves the ability to contain infections. However, the protective mechanisms of preconditioning at the tissue level in organs such as the kidney remain poorly understood. Here, we show that endotoxin preconditioning confers renal epithelial protection in various models of sepsis in vivo. We also tested the hypothesis that this protection results from direct interactions between the preconditioning dose of endotoxin and the renal tubules. This hypothesis is on the basis of our previous findings that endotoxin toxicity to nonpreconditioned renal tubules was direct and independent of immune cells. Notably, we found that tubular protection after preconditioning has an absolute requirement for CD14-expressing myeloid cells and particularly, macrophages. Additionally, an intact macrophage CD14-TRIF signaling pathway was essential for tubular protection. The preconditioned state was characterized by increased macrophage number and trafficking within the kidney as well as clustering of macrophages around S1 proximal tubules. These macrophages exhibited increased M2 polarization and upregulation of redox and iron-handling molecules. In renal tubules, preconditioning prevented peroxisomal damage and abolished oxidative stress and injury to S2 and S3 tubules. In summary, these data suggest that macrophages are essential mediators of endotoxin preconditioning and required for renal tissue protection. Preconditioning is, therefore, an attractive model to investigate novel protective pathways for the prevention and treatment of sepsis.


Assuntos
Injúria Renal Aguda/metabolismo , Endotoxinas/metabolismo , Precondicionamento Isquêmico/métodos , Túbulos Renais Proximais/metabolismo , Espécies Reativas de Oxigênio/metabolismo , Injúria Renal Aguda/patologia , Análise de Variância , Animais , Western Blotting , Movimento Celular , Proliferação de Células , Células Cultivadas , Citocinas/metabolismo , Modelos Animais de Doenças , Endotoxinas/farmacologia , Túbulos Renais Proximais/citologia , Receptores de Lipopolissacarídeos/metabolismo , Masculino , Camundongos , Estresse Oxidativo/fisiologia , Distribuição Aleatória , Sepse/metabolismo , Sepse/patologia , Receptor 4 Toll-Like/genética , Receptor 4 Toll-Like/metabolismo
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