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一线希望:抗击肝病的新武器 [复制链接]

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发表于 2021-5-4 18:12 |只看该作者 |倒序浏览 |打印
A glimmer of hope: New weapon in the fight against liver diseases                                    

                                        by                                         Niigata University                                    

                                                                                                                                        


                Increased levels of annexin A1, lactotransferrin, and aminopeptidase N. Increase the counts of anti-inflammatory macrophages with high motility and phagocytic ability, which increase repair of damaged tissue. Induces regulatory T cells and fibrolysis. b) The γ-sEVs also have the ability to reduce inflammation as well as downregulate fibrogenesis. Credit: Niigata University                        

Researchers from Niigata University , the University of Tokyo, Osaka University and Tokyo Medical University, Japan, have developed a new approach that could revolutionize the treatment, prevention, and possibly reversal of the damage caused by liver diseases. This novel strategy exploits small extracellular vesicles (sEVs) derived from interferon-γ (IFN-γ) pre-conditioned MSCs (γ-sEVs).                                                
                                                                                Cirrhosis and other chronic liver diseases remain a global health concern, with close to 2 million deaths reported annually; these account for approximately 3.5% of annual worldwide deaths. All these statistics are largely driven by the fact that 75 million of the 2 billion people who consume alcohol worldwide are diagnosed with alcohol-use disorders and are at risk of developing alcohol- induced liver disease. In addition, the high prevalence of viral hepatitis-induced liver damage continues to be on the rise.
These sobering numbers inspired a team of scientists led by Prof. Shuji Terai of the Division of Gastroenterology and Hepatology, Graduate School of Medical and Dental Sciences, Niigata University, to build upon previous knowledge regarding loss of the ability to control fibrosis, the development of fibrous connective tissue as a reparative response to injury or damage, in livers under advanced cirrhosis. In an interview Prof. Terai said, "Our results showed that modified extracellular vesicles can become a new therapeutic strategy for liver cirrhosis."
                        

                The AD-MSC-γ-sEVs effectively downregulate pro-inflammatory (IL-6, Tnf-a, Mcp-1, and Inos) and induce anti-inflammatory (iL-10, Ym-1, Fizz-1, Cd206) macrophage responses and in vitro. Credit: Niigata University                        

Since clinically advanced cirrhosis is an end-stage disease that can effectively be treated only by liver transplantation at present, there is a race in the field with many scientists developing targeted therapies for modulating fibrosis and aiding tissue regeneration.
One of the most popular approaches is cell therapy, where mesenchymal stromal cells (MSCs) and macrophages have shown potential for inducing liver fibrosis regression. The popularity of this approach is centered on its cost-effectiveness; because MSCs are not only obtainable from the bone marrow, but also from medical waste that include umbilical cord tissue, adipose tissue, and dental pulp. Apart from the ease of availability, MSCs can also be grown relatively easily in the lab. Furthermore, rather than acting directly by replacing the damaged tissues, MSCs have previously been shown to be medical signaling cells that indirectly produce cytokines, chemokines, growth factors and exosomes that are crucial for repairing and regenerating damaged tissue. Over the years, considerable progress has been made toward capacity building for research and clinical trials for novel treatment strategies against liver diseases. This is exemplified by previous demonstrations that MSCs have anti-inflammatory, anti-fibrotic and anti-oxidative effects through these humoral factors.
                                                
                                        Tissue rejection is a barrier to cell/tissue transplantation interventions; MSCs are thus attractive for possessing low immunogenicity, and this can facilitate their use for both autologous (same individual) and allogeneic (different individuals of the same species) transplantation, as evidenced by applications in nearly 1000 clinical trials involving other fields, including the treatment of liver diseases.
In a series of experimental mice studies, this team of researchers, from Niigata University , the University of Tokyo, Osaka University and Tokyo Medical University, Japan may have discovered that IFN-γ pre-conditioned human AD-MSC-derived sEVs (AD-MSC-γ-sEVs) can induce anti-inflammatory macrophage counts, which are the key players in tissue repair, including the regression of fibrosis and promotion of tissue regeneration in vitro.
                        

                There is dose dependent improvement of liver fibrosis improvement a) PBS (vehicle) treated-most damaged b) AD-MSC, e) AD-MSC-γ, f-g) 2 μg and 5 μg of AD-MSC-γ-sEVs improved liver fibrosis more than the AD-MSC-sEVs (c-d). Credit: Niigata University                        

They report that both human adipose tissue-derived MSCs (AD-MSC-sEVs) and AD-MSC-γ-sEVs can promote macrophage motility and phagocytic activity. In addition, they also show that AD-MSC-γ- sEVs contain anti-inflammatory macrophage inducible proteins and can effectively control inflammation and fibrosis in a mouse model of cirrhosis. Following single-cell RNA-seq application, they confirmed AD-MSC-γ-sEVs therapy can induce multidimensional transcriptional changes. Taken together, these results suggest that AD-MSC-derived sEVs can affect the shape and function of macrophages and effectively recruit them into damaged areas, thereby promoting damaged liver tissue repair.
Dr. Atsunori Tsuchiya of the Division of Gastroenterology and Hepatology, Graduate School of Medical and Dental Sciences, Niigata University, who was part of the research team said, "Both mesenchymal stromal cells and macrophages are reported to have therapeutic effects for liver cirrhosis, however relationship of both cells and mechanisms of action was not clear. We challenged this problem. We found the important fact that extracellular vesicles from interferon-γ can induce the tissue repair macrophages, which can regress fibrosis and promote liver regeneration effectively."
Dr. Suguru Takeuchi of the Division of Gastroenterology and Hepatology, Graduate School of Medical and Dental Sciences, Niigata University, who was also part of the research team, said, "In our previous study, we reported that intravenous administration of mesenchymal stromal cells migrated to the lung, can work as 'conducting cells' and affect to macrophages 'working cells' in the liver. In this study we first elucidated that extracellular vesicles from mesenchymal stromal cells are key molecules to affect the macrophages."
This proof-of-concept pilot study holds potential as a strategy for treating liver diseases using IFN-γ pre-conditioned sEVs. However, further development and determination of the mechanisms underlying Treg cell count induction by IFN-γ pre-conditioned MSCs and sEVs still form part of their future research plans before these findings can be translated to humans in phased and controlled clinical trials.                                                                                                                        

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发表于 2021-5-4 18:13 |只看该作者
一线希望:抗击肝病的新武器

新泻大学
膜联蛋白A1,乳酸转铁蛋白和氨基肽酶N的水平增加。增加了具有高运动性和吞噬能力的抗炎巨噬细胞的数量,从而增加了对受损组织的修复。诱导调节性T细胞和纤维溶解。 b)γ-sEVs还具有减少炎症以及下调纤维生成的能力。图片来源:新泻大学

新泻大学,东京大学,大阪大学和日本东京医科大学的研究人员已经开发出一种新方法,可以彻底改变治疗,预防和可能逆转肝病造成的损害的方法。这种新策略利用了源自干扰素-γ(IFN-γ)预处理的MSC(γ-sEVs)的小细胞外囊泡(sEVs)。

肝硬化和其他慢性肝病仍然是全球健康问题,据报道每年有近200万人死亡。这些约占全球每年死亡人数的3.5%。所有这些统计数据主要是由以下事实驱动的:全世界20亿饮酒的人口中有7千5百万被诊断患有酒精滥用疾病,并有患酒精性肝病的风险。此外,病毒性肝炎引起的肝损害的高发率仍在上升。

这些清醒的数字鼓舞了由新泻大学医学与牙科学研究生院胃肠病学和肝脏病学系Shuji Terai教授领导的一组科学家,他们以先前关于控制纤维化能力丧失,疾病发展的知识为基础。纤维结缔组织对肝硬化晚期患者的损伤或损伤的修复反应。 Terai教授在接受采访时说:“我们的研究结果表明,修饰的细胞外囊泡可以成为肝硬化的一种新治疗策略。”
AD-MSC-γ-sEVs有效地下调促炎性(IL-6,Tnf-a,Mcp-1和Inos)并诱导抗炎性(iL-10,Ym-1,Fizz-1,Cd206)巨噬细胞反应和体外。图片来源:新泻大学

由于临床上晚期肝硬化是目前只能通过肝移植才能有效治疗的终末期疾病,因此该领域出现了一场竞赛,许多科学家正在开发靶向疗法以调节纤维化和帮助组织再生。

最受欢迎的方法之一是细胞疗法,其中间充质基质细胞(MSC)和巨噬细胞已显示出诱导肝纤维化消退的潜力。这种方法的流行集中在其成本效益上。因为MSCs不仅可以从骨髓中获得,而且还可以从包括脐带组织,脂肪组织和牙髓的医疗废物中获得。除了易于使用之外,MSC在实验室中也可以相对容易地生长。此外,MSCs并非直接通过替代受损组织来发挥作用,而是被证明是一种医学信号细胞,可间接产生对于修复和再生受损组织至关重要的细胞因子,趋化因子,生长因子和外泌体。多年来,在针对肝脏疾病的新型治疗策略的研究和临床试验能力建设方面已取得了相当大的进步。以前的证明表明,MSC通过这些体液因子具有抗炎,抗纤维化和抗氧化的作用。

组织排斥是细胞/组织移植干预的障碍;因此,MSC具有较低的免疫原性,并且可以促进其用于自体(相同个体)和同种异体(同一物种的不同个体)移植的用途,这一点已在涉及其他领域(包括治疗)的近1000项临床试验中得到了应用肝脏疾病。

在一系列实验小鼠研究中,来自日本新泻大学,东京大学,大阪大学和东京医科大学的一组研究人员可能已经发现IFN-γ预处理了人类AD-MSC衍生的sEV(AD- MSC-γ-sEVs可以诱导抗炎巨噬细胞计数,这是组织修复(包括纤维化的消退和体外组织再生的促进)的关键参与者。
肝纤维化改善有剂量依赖性改善a)PBS(车辆)治疗受损最严重的b)AD-MSC,e)AD-MSC-γ,fg)2μg和5μgAD-MSC-γ-sEVs改善肝脏纤维化比AD-MSC-sEVs(cd)更多。图片来源:新泻大学

他们报告说,人类脂肪组织来源的MSC(AD-MSC-sEVs)和AD-MSC-γ-sEVs均可促进巨噬细胞运动性和吞噬活性。此外,他们还表明,AD-MSC-γ-sEVs含有抗炎巨噬细胞可诱导蛋白,并且可以有效控制肝硬化小鼠模型中的炎症和纤维化。在应用单细胞RNA-seq后,他们证实了AD-MSC-γ-sE

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发表于 2021-5-4 18:13 |只看该作者

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