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1.
J Biol Chem ; 300(3): 105724, 2024 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-38325742

RESUMO

Mammalian cells have evolved strategies to regulate gene expression when oxygen is limited. Hypoxia-inducible factors (HIF) are the major transcriptional regulators of host gene expression. We previously reported that HIFs bind and activate hepatitis B virus (HBV) DNA transcription under low oxygen conditions; however, the global cellular response to low oxygen is mediated by a family of oxygenases that work in concert with HIFs. Recent studies have identified a role for chromatin modifiers in sensing cellular oxygen and orchestrating transcriptional responses, but their role in the HBV life cycle is as yet undefined. We demonstrated that histone lysine demethylase 4 (KDM4) can restrict HBV, and pharmacological or oxygen-mediated inhibition of the demethylase increases viral RNAs derived from both episomal and integrated copies of the viral genome. Sequencing studies demonstrated that KDM4 is a major regulator of the hepatic transcriptome, which defines hepatocellular permissivity to HBV infection. We propose a model where HBV exploits cellular oxygen sensors to replicate and persist in the liver. Understanding oxygen-dependent pathways that regulate HBV infection will facilitate the development of physiologically relevant cell-based models that support efficient HBV replication.


Assuntos
Vírus da Hepatite B , Histona Desmetilases com o Domínio Jumonji , Oxigênio , Replicação Viral , Humanos , DNA Viral/genética , Genoma Viral/genética , Hepatite B/enzimologia , Hepatite B/metabolismo , Hepatite B/virologia , Vírus da Hepatite B/genética , Vírus da Hepatite B/crescimento & desenvolvimento , Vírus da Hepatite B/metabolismo , Histona Desmetilases com o Domínio Jumonji/metabolismo , Fígado/enzimologia , Fígado/metabolismo , Fígado/virologia , Oxigênio/metabolismo , Plasmídeos/genética , Transcriptoma , Replicação Viral/genética
2.
Nanoscale ; 11(13): 5932-5941, 2019 Mar 28.
Artigo em Inglês | MEDLINE | ID: mdl-30556563

RESUMO

Self-assembled vesicles composed of amino acid-based cationic/anionic surfactant mixtures show promise as novel effective drug nanocarriers. Here, we report the in vitro performance of vesicles based on cationic (16Ser) and anionic (8-8Ser) serine-based surfactants using a cancer cell model for the delivery of the anticancer drug doxorubicin (DOX). This catanionic mixture yields both negatively (0.20 in the cationic surfactant molar fraction, x16Ser) and positively (x16Ser = 0.58) charged vesicles, hence providing a surface charge tunable system. Low toxicity is confirmed for concentration ranges below 32 µM in both formulations. DOX is successfully encapsulated in the vesicles, resulting in a surface charge switch to negative for the (0.58) system, making both (0.20) and (0.58) DOX-loaded vesicles highly interesting for systemic administration. High uptake by cells was demonstrated using flow cytometry and confocal microscopy. Drug accumulation results in an increase of cell uptake up to 250% and 200% for the (0.20) and (0.58) vesicles, respectively, compared to free DOX and with localizations near the nuclear regions in the cells. The in vitro cytotoxicity studies show that DOX-loaded vesicles induce cell death, confirming the therapeutic potential of the formulations. Furthermore, the efficient accumulation of the drug inside the cell compartments harbors the potential for optimization strategies including phased delivery for prolonged treatment periods or even on-demand release.


Assuntos
Antineoplásicos/química , Doxorrubicina/química , Portadores de Fármacos/química , Tensoativos/química , Células A549 , Antineoplásicos/farmacologia , Cátions/química , Sobrevivência Celular/efeitos dos fármacos , Doxorrubicina/farmacologia , Humanos , Microscopia Confocal , Serina/química , Propriedades de Superfície
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