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1.
Acta Pharmacol Sin ; 45(5): 879-889, 2024 May.
Artigo em Inglês | MEDLINE | ID: mdl-38191914

RESUMO

MORF4-related gene on chromosome 15 (MRG15), a chromatin remodeller, is evolutionally conserved and ubiquitously expressed in mammalian tissues and cells. MRG15 plays vital regulatory roles in DNA damage repair, cell proliferation and division, cellular senescence and apoptosis by regulating both gene activation and gene repression via associations with specific histone acetyltransferase and histone deacetylase complexes. Recently, MRG15 has also been shown to rhythmically regulate hepatic lipid metabolism and suppress carcinoma progression. The unique N-terminal chromodomain and C-terminal MRG domain in MRG15 synergistically regulate its interaction with different cofactors, affecting its functions in various cell types. Thus, how MRG15 elaborately regulates target gene expression and performs diverse functions in different cellular contexts is worth investigating. In this review, we provide an in-depth discussion of how MRG15 controls multiple physiological and pathological processes.


Assuntos
Epigênese Genética , Humanos , Animais
2.
Sheng Li Xue Bao ; 73(5): 694-706, 2021 Oct 25.
Artigo em Zh | MEDLINE | ID: mdl-34708227

RESUMO

The high failure rate of the new drug development has been well recognized. Relying on the pre-clinical data obtained from animal experiments will inevitably cause a low concordance with human clinical trials, which will eventually lead to new drug development failure. Employing human induced pluripotent stem cells (iPSCs) or adult stem cells to simulate disease models can not only provide an unlimited cell materials, but also faithfully represent the genetic background of a certain disease, when iPSCs or adult stem cells derived from patients with a specific disease genetic variation are applied. In addition, gene editing methods can be used to introduce genetic variants of interest into stem cells to generate disease models. Furthermore, by establishing a cell bank with a population of iPSCs in petri dish, in vitro human genetic studies can be carried out in these cells, with GWAS and QTL studies applied to identify genetic variants that are associated with drug sensitivity or cytotoxicity. These efforts may offer valuable information for the recruitment of suitable patients for clinical trials. Therefore, stem cell-derived disease models can provide valuable resources for the pathophysiological studies of diseases as well as the drug development. In this review, we will briefly introduce the development of the liver disease models derived from stem cells and their applications in disease study and drug development.


Assuntos
Células-Tronco Pluripotentes Induzidas , Animais , Diferenciação Celular , Desenvolvimento de Medicamentos , Edição de Genes , Humanos , Fígado
3.
Oral Dis ; 25(7): 1789-1797, 2019 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-31283861

RESUMO

BACKGROUND: Porphyromonas gingivalis is the main pathogen of periodontal disease affecting over half of the worldwide adult population. Recent studies have shown that P. gingivalis is related to the development of non-alcoholic fatty liver disease (NAFLD), a global major chronic liver disease, especially in developed countries. However, how P. gingivalis contributes to the pathogenesis of NAFLD has not been fully clarified. We aimed to conduct a preliminary exploration of the underlying mechanism of P. gingivalis infection in the development of NAFLD. METHODS: Human hepatocellular cells HepG2 were incubated with/without oleic acid (OA) and tested for lipid accumulation upon stimulation by lipopolysaccharide (LPS) derived from P. gingivalis or Escherichia coli. Intracellular lipid droplet formation was analyzed and quantified by Oil Red O staining. The involvement of signaling pathway molecules and pro-inflammatory cytokines related to NF-κB and MAPKs were examined with Western blot and quantitative real-time PCR (qRT-PCR) analyses and further evaluated with inhibitor treatment and RNA interference. RESULTS: HepG2 cells accumulated more intracellular lipids when stimulated with P. gingivalis LPS, as compared to cells treated with E. coli LPS or control. Further pathway analysis demonstrated that after stimulation with P. gingivalis LPS, cells displayed significantly upregulated MyD88 expression, increased phosphorylation of p65 and JNK, and more release of pro-inflammatory cytokines, such as IL-1, IL-8, and TNF-α. In addition, suppression of phosphorylation of p65 and JNK by inhibitors and RNA interference resulted in a reduction in lipid accumulation upon P. gingivalis LPS treatment. CONCLUSIONS: These results suggest that P. gingivalis-derived LPS may contribute to intracellular lipid accumulation and inflammatory reaction of HepG2 cells via the activation of NF-κB and JNK signaling pathways. This study offers a possible explanation to the functional involvement of P. gingivalis infection in the pathological progression of NAFLD. These findings may help design new treatment strategies in NAFLD.


Assuntos
Lipopolissacarídeos , Sistema de Sinalização das MAP Quinases , NF-kappa B , Hepatopatia Gordurosa não Alcoólica/patologia , Periodontite/microbiologia , Porphyromonas gingivalis , Adulto , Infecções por Bacteroidaceae , Western Blotting , Humanos , Hepatopatia Gordurosa não Alcoólica/microbiologia , Porphyromonas gingivalis/isolamento & purificação , Reação em Cadeia da Polimerase em Tempo Real
4.
Yi Chuan ; 39(3): 177-188, 2017 03 20.
Artigo em Inglês | MEDLINE | ID: mdl-28420614

RESUMO

The emergence of genome editing tools, such as the clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated 9 (Cas9) system, has enabled researchers to achieve somatic and germline genomic manipulations in cell lines and model organisms. Within a couple of years, genome editing is now being rapidly developed for multiple applications and widely used in biomedical researches, including creation of disease models with desired genetic mutations, screening in a high-throughput manner for drug resistance genes, and making appropriate editions to genes in vivo for disease treatment. All these applications have been facilitating the development of precision medicine research. In this review, we describe the use of genome editing technologies for a variety of research and translational applications in the precision medicine field. We also highlight some of the existing limitations or challenges as well as future directions.


Assuntos
Edição de Genes , Medicina de Precisão/métodos , Animais , Pesquisa Biomédica , Sistemas CRISPR-Cas/genética , Humanos
5.
Yi Chuan ; 37(10): 983-91, 2015 10.
Artigo em Inglês | MEDLINE | ID: mdl-26496750

RESUMO

Precision medicine emerges as a new approach that takes into account individual variability. The successful conduct of precision medicine requires the use of precise disease models. Human pluripotent stem cells (hPSCs), as well as adult stem cells, can be differentiated into a variety of human somatic cell types that can be used for research and drug screening. The development of genome editing technology over the past few years, especially the CRISPR/Cas system, has made it feasible to precisely and efficiently edit the genetic background. Therefore, disease modeling by using a combination of human stem cells and genome editing technology has offered a new platform to generate " personalized " disease models, which allow the study of the contribution of individual genetic variabilities to disease progression and the development of precise treatments. In this review, recent advances in the use of genome editing in human stem cells and the generation of stem cell models for rare diseases and cancers are discussed.


Assuntos
Sistemas CRISPR-Cas , Doença/genética , Engenharia Genética/métodos , Genoma Humano/genética , Medicina de Precisão/métodos , Células-Tronco/metabolismo , Humanos , Modelos Genéticos , Neoplasias/genética , Neoplasias/patologia , Medicina de Precisão/tendências , Doenças Raras/genética , Doenças Raras/patologia
6.
Yi Chuan ; 37(11): 1167-73, 2015 11.
Artigo em Zh | MEDLINE | ID: mdl-26582531

RESUMO

The RNA-guided CRISPR (clustered regularly interspaced short palindromic repeat)-associated Cas9 nuclease has offered a new platform for genome editing with high efficiency. Here, we report the use of CRISPR/Cas9 technology to target a specific genomic region in human pluripotent stem cells. We show that CRISPR/Cas9 can be used to disrupt a gene by introducing frameshift mutations to gene coding region; to knock in specific sequences (e.g. FLAG tag DNA sequence) to targeted genomic locus via homology directed repair; to induce large genomic deletion through dual-guide multiplex. Our results demonstrate the versatile application of CRISPR/Cas9 in stem cell genome editing, which can be widely utilized for functional studies of genes or genome loci in human pluripotent stem cells.


Assuntos
Sistemas CRISPR-Cas/genética , Genoma Humano/genética , Células-Tronco Pluripotentes/metabolismo , Edição de RNA , Mutação da Fase de Leitura , Humanos , RNA Guia de Cinetoplastídeos/genética
7.
World J Stem Cells ; 11(8): 535-547, 2019 Aug 26.
Artigo em Inglês | MEDLINE | ID: mdl-31523372

RESUMO

Human hepatocyte-like cells (HLCs) derived from human pluripotent stem cells (hPSCs) promise a valuable source of cells with human genetic background, physiologically relevant liver functions, and unlimited supply. With over 10 years' efforts in this field, great achievements have been made. HLCs have been successfully derived and applied in disease modeling, toxicity testing and drug discovery. Large cohorts of induced pluripotent stem cells-derived HLCs have been recently applied in studying population genetics and functional outputs of common genetic variants in vitro. This has offered a new paradigm for genome-wide association studies and possibly in vitro pharmacogenomics in the nearly future. However, HLCs have not yet been successfully applied in bioartificial liver devices and have only displayed limited success in cell transplantation. HLCs still have an immature hepatocyte phenotype and exist as a population with great heterogeneity, and HLCs derived from different hPSC lines display variable differentiation efficiency. Therefore, continuous improvement to the quality of HLCs, deeper investigation of relevant biological processes, and proper adaptation of recent advances in cell culture platforms, genome editing technology, and bioengineering systems are required before HLCs can fulfill the needs in basic and translational research. In this review, we summarize the discoveries, achievements, and challenges in the derivation and applications of HLCs.

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