Zhen Dai scite author profile

The aging extracellular matrix is characterized by an age-related increase in insolubilization, yellowing, and stiffening, all of which can be mimicked by the Maillard reaction in vitro. These phenomena are accelerated in metabolic diseases such as diabetes and end-stage renal disease, which have in common with physiological aging the accumulation of various glycation products and cross-links. Eight years ago we concluded that the evidence favored oxidative cross-linking in experimental diabetes [Monnier, V.M. et al. 1996. The mechanism of collagen cross-linking in diabetes: a puzzle nearing completion. Diabetes 45(Suppl. 3): 67-72] and proposed a major role for a putative non-UV active cross-link derived from glucose. Below, we provide an update of the field that leads to the conclusion that, while oxidation might be important for Maillard reaction-mediated cross-linking via Strecker degradation and allysine formation, the single most important collagen cross-link known to date in diabetes and aging is glucosepane, a lysyl-arginine cross-link that forms under nonoxidative conditions.

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Direct Reprogramming of Hepatic Myofibroblasts into Hepatocytes In Vivo Attenuates Liver Fibrosis

Song

et al. 2016

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Direct induction of induced hepatocytes (iHeps) from fibroblasts holds potential as a strategy for regenerative medicine but until now has only been shown in culture settings. Here, we describe in vivo iHep formation using transcription factor induction and genetic fate tracing in mouse models of chronic liver disease. We show that ectopic expression of the transcription factors FOXA3, GATA4, HNF1A, and HNF4A from a polycistronic lentiviral vector converts mouse myofibroblasts into cells with a hepatocyte phenotype. In vivo expression of the same set of transcription factors from a p75 neurotrophin receptor peptide (p75NTRp)-tagged adenovirus enabled the generation of hepatocyte-like cells from myofibroblasts in fibrotic mouse livers and reduced liver fibrosis. We have therefore been able to convert pro-fibrogenic myofibroblasts in the liver into hepatocyte-like cells with positive functional benefits. This direct in vivo reprogramming approach may open new avenues for the treatment of chronic liver disease.

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Sequence-specific inhibition of microRNA via CRISPR/CRISPRi system

Zhao

Dai

Yang

et al. 2014

Sci Rep

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Here, we report a convenient and efficient miRNA inhibition strategy employing the CRISPR system. Using specifically designed gRNAs, miRNA gene has been cut at a single site by Cas9, resulting in knockdown of the miRNA in murine cells. Using a modified CRISPR interference system (CRISPRi), inactive Cas9 can reversibly prevent the expression of both monocistronic miRNAs and polycistronic miRNA clusters. Furthermore, CRISPR/CRISPRi is also capable of suppressing genes in porcine cells.

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Growth differentiation factor 11 attenuates liver fibrosis via expansion of liver progenitor cells

Dai

Song

Balakrishnan

et al. 2019

Gut

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ObjectiveLiver fibrosis and cirrhosis resulting from chronic liver injury represent a major healthcare burden worldwide. Growth differentiation factor (GDF) 11 has been recently investigated for its role in rejuvenation of ageing organs, but its role in chronic liver diseases has remained unknown. Here, we investigated the expression and function of GDF11 in liver fibrosis, a common feature of most chronic liver diseases.DesignWe analysed the expression of GDF11 in patients with liver fibrosis, in a mouse model of liver fibrosis and in hepatic stellate cells (HSCs) as well as in other liver cell types. The functional relevance of GDF11 in toxin-induced and cholestasis-induced mouse models of liver fibrosis was examined by in vivo modulation of Gdf11 expression using adeno-associated virus (AAV) vectors. The effect of GDF11 on leucine-rich repeat-containing G-protein-coupled receptor 5 (LGR5)+ liver progenitor cells was studied in mouse and human liver organoid culture. Furthermore, in vivo depletion of LGR5+ cells was induced by injecting AAV vectors expressing diptheria toxin A under the transcriptional control of Lgr5 promoter.ResultsWe showed that the expression of GDF11 is upregulated in patients with liver fibrosis and in experimentally induced murine liver fibrosis models. Furthermore, we found that therapeutic application of GDF11 mounts a protective response against fibrosis by increasing the number of LGR5+ progenitor cells in the liver.ConclusionCollectively, our findings uncover a protective role of GDF11 during liver fibrosis and suggest a potential application of GDF11 for the treatment of chronic liver disease.

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Therapeutic HNF4A mRNA attenuates liver fibrosis in a preclinical model

Yang

Poenisch

Khanal

et al. 2021

Journal of Hepatology

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This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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Development and performance evaluation of a new thermal insulation material from rice straw using high frequency hot-pressing

Wei¹,

Lv²,

Chen³

et al. 2015

Energy and Buildings

163

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A top-down approach to hierarchical SAPO-34 zeolites with improved selectivity of olefin

Chen

Sun

et al. 2016

Microporous and Mesoporous Materials

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The Role of the Amadori Product in the Complications of Diabetes

Monnier

Sell²,

Dai

et al. 2008

Annals of the New York Academy of Sciences

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Strong evidence has emerged in recent years in support of an association between advanced glycation and the complications of diabetes, whereby both glycoxidation products and oxoaldehydes have been implicated. In contrast, except for the fact that skin collagen-linked fructosamine (Amadori product) is a strong predictor of the risk of progression of microvascular disease in humans, Amadori products have not been associated with complications in most animal experiments. Below we develop the hypothesis that glucose-derived advanced glycation end products (AGEs), such as glucosepane, may inflict sustained damage to the extracellular matrix in diabetes and contribute to tissue stiffening and accelerated sclerosis in arteries, kidneys, and other organs as supported by immunochemical studies using a glucosepane antibody. We also hypothesize that many more structures derived from Amadori products with nucleophiles, such as primary amines and thiols, are expected. The selective prevention of Amadori-derived AGEs using deglycating enzymes would be desirable. However, x-ray diffraction studies of Amadoriase I crystals show that the active site of the enzyme is deeply embedded, explaining why this approach is unlikely to succeed in vivo. Preliminary experiments with nucleophiles show that aminoguanidine and other compounds block glucosepane in vitro.

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Zhen Dai

Cross‐Linking of the Extracellular Matrix by the Maillard Reaction in Aging and Diabetes: An Update on “a Puzzle Nearing Resolution”

Direct Reprogramming of Hepatic Myofibroblasts into Hepatocytes In Vivo Attenuates Liver Fibrosis

Sequence-specific inhibition of microRNA via CRISPR/CRISPRi system

Growth differentiation factor 11 attenuates liver fibrosis via expansion of liver progenitor cells

Therapeutic HNF4A mRNA attenuates liver fibrosis in a preclinical model

Development and performance evaluation of a new thermal insulation material from rice straw using high frequency hot-pressing

A top-down approach to hierarchical SAPO-34 zeolites with improved selectivity of olefin

The Role of the Amadori Product in the Complications of Diabetes

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