衰老的分子机制与干预研究的最新进展

随着全球老龄化时代的到来,衰老和衰老相关疾病带来的健康问题日益突出。如何最大限度地维持老龄人口健康、干预衰老相关疾病并延缓衰老的发生对于医疗系统、科研机构乃至整个社会都是巨大的挑战。目前,对于衰老的分子机制研究已经有长足的进步,对于衰老进程的生物学和遗传学机制已有突破性的认识,对于衰老相关疾病的发病机制也有了深刻的理解。但这些研究成果还远远达不到能够延缓人类衰老并遏制衰老相关疾病的发生的要求。该文将从衰老的分子机制和干预手段这两个方面入手,综述衰老的理论研究和实际应用中的主要成果和最新进展。     

Aging and neural control of the GI tract. II. Neural control of the aging gut: can an old dog learn new tricks?

There has been a dramatic increase in funding available for aging research, primarily due to the fact that answers to questions on aging are likely to have a major impact on the well-being and healthy aging of the world's population for decades to come. The incidence of certain gastrointestinal problems, such as dysphagia and constipation, increases dramatically with age. Changes in gastrointestinal neuromuscular function with aging have been demonstrated in both human and animal models of aging. This article focuses on recent advances in our knowledge of the effects of aging on gastrointestinal function, treatment options, and future opportunities for research.     

Mitochondrial signaling, TOR, and life span

Growing evidence supports the concept that mitochondrial metabolism and reactive oxygen species (ROS) play a major role in aging and determination of an organism's life span. Cellular signaling pathways regulating mitochondrial activity, and hence the generation of ROS and retrograde signaling events originating in mitochondria, have recently moved into the spotlight in aging research. Involvement of the energy-sensing TOR pathway in both mitochondrial signaling and determination of life span has been shown in several studies. This brief review summarizes the recent progress on how mitochondrial signaling might contribute to the aging process with a particular emphasis on TOR signaling from invertebrates to humans.     

Dietary phytochemicals and neuro-inflammaging: from mechanistic insights to translational challenges

An extensive literature describes the positive impact of dietary phytochemicals on overall health and longevity. Dietary phytochemicals include a large group of non-nutrients compounds from a wide range of plant-derived foods and chemical classes. Over the last decade, remarkable progress has been made to realize that oxidative and nitrosative stress (O&NS) and chronic, low-grade inflammation are major risk factors underlying brain aging. Accumulated data strongly suggest that phytochemicals from fruits, vegetables, herbs, and spices may exert relevant negative immunoregulatory, and/or anti-O&NS activities in the context of brain aging. Despite the translational gap between basic and clinical research, the current understanding of the molecular interactions between phytochemicals and immune-inflammatory and O&NS (IO&NS) pathways could help in designing effective nutritional strategies to delay brain aging and improve cognitive function. This review attempts to summarise recent evidence indicating that specific phytochemicals may act as positive modulators of IO&NS pathways by attenuating pro-inflammatory pathways associated with the age-related redox imbalance that occurs in brain aging. We will also discuss the need to initiate long-term nutrition intervention studies in healthy subjects. Hence, we will highlight crucial aspects that require further study to determine effective physiological concentrations and explore the real impact of dietary phytochemicals in preserving brain health before the onset of symptoms leading to cognitive decline and inflammatory neurodegeneration.     

干细胞与再生医学技术发展态势研究

20世纪以来,干细胞与再生医学技术一直是国际生物医学领域的热点前沿之一,它为保障人类生命健康、改善人类生存质量和延长人类寿命发挥不可替代的巨大作用。因此,美国、欧洲国家、日本和中国等科技大国均将该领域纳入了国家科研与产业发展的重点战略中,并通过专项扶持、政策补贴、立法保障等方式激励该领域的创新发展。通过对近年来国际科技战略和科技研发态势的梳理分析,发现该领域的国际战略布局规律,揭示我国在该领域的领先优势与弱点,为我国未来干细胞与再生医学技术发展提出相关参考建议。     

果蝇微小RNA及其在衰老过程中的作用

微小RNA（microRNA, miRNA）是一类长度在22 nt左右的内源非编码小RNA,广泛存在于动物、植物、病毒等多种有机体中,是机体正常衰老与疾病的重要调控因子。本文对果蝇不同生长时期miRNA的表达模式、主要衰老相关信号通路以及与衰老相关的miRNA进行了综述。在果蝇的不同发育时期均有特定的miRNA发挥重要作用,其表达模式与功能相关;miRNA参与了主要衰老分子信号通路的调控,如胰岛素/胰岛素样生长因子（IIS）通路和雷帕霉素靶蛋白（TOR）通路。研究表明,miRNA通过调控衰老相关信号通路中的靶基因,进而促进或延缓果蝇衰老,如miR-34, miR-8, miR-14, miR let7和miR-277等。因此,研究参与衰老调控的miRNA,为阐明衰老机制及抗衰老药物的设计奠定了基础。     

Evolution of aging theories: Why modern programmed aging concepts are transforming medical research

Programmed aging refers to the idea that senescence in humans and other organisms is purposely caused by evolved biological mechanisms to obtain an evolutionary advantage. Until recently, programmed aging was considered theoretically impossible because of the mechanics of the evolution process, and medical research was based on the idea that aging was not programmed. Theorists struggled for more than a century in efforts to develop non-programmed theories that fit observations, without obtaining a consensus supporting any non-programmed theory. Empirical evidence of programmed lifespan limitations continued to accumulate. More recently, developments, especially in our understanding of biological inheritance, have exposed major issues and complexities regarding the process of evolution, some of which explicitly enable programmed aging of mammals. Consequently, science-based opposition to programmed aging has dramatically declined. This progression has major implications for medical research, because the theories suggest that very different biological mechanisms are ultimately responsible for highly age-related diseases that now represent most research efforts and health costs. Most particularly, programmed theories suggest that aging per se is a treatable condition and suggest a second path toward treating and preventing age-related diseases that can be exploited in addition to the traditional disease-specific approaches. The theories also make predictions regarding the nature of biological aging mechanisms and therefore suggest research directions. This article discusses developments of evolutionary mechanics, the consequent programmed aging theories, and logical inferences concerning biological aging mechanisms. It concludes that major medical research organizations cannot afford to ignore programmed aging concepts in assigning research resources and directions.     

DNA double-strand break repair: from mechanistic understanding to cancer treatment

Accurate repair of DNA double-strand breaks is essential to life. Indeed, defective DNA double-strand break repair can lead to toxicity and large scale sequence rearrangements that cause cancer and promote premature aging. Here, we highlight the two major repair systems for handling DNA double-strand breaks: homologous recombination and non-homologous end joining. To clarify recombination mechanisms, we present animations that illustrate DNA strand movements. In addition to describing how these pathways operate, we also describe why appropriate pathway choice is critical to genomic stability, and we summarize key pathway control features related to cell cycle checkpoint and apoptosis signaling. Importantly, recent progress in delineating the effects of specific defects in repair and checkpoint control has helped to explain several disease phenotypes, including cancer and premature aging. Improved understanding of these pathways has also sparked development of novel chemotherapeutic strategies that kill tumors with increased specificity and efficacy. This review aims to provide a foundational understanding of how the homologous recombination and non-homologous end joining pathways operate, and to demonstrate how a better understanding of these processes has advanced both our understanding of the underlying causes of cancer and our ability to innovate novel cancer treatment strategies.     

害虫遗传防治的研究历史与现状

作为防治或根除重大害虫最为有效的手段之一,害虫遗传防治在世界范围内被广泛采用并取得了巨大成功。本文综述了不育昆虫技术、雌性致死系统和昆虫显性致死技术等经典害虫遗传防治策略的发展历史、技术特点和应用情况。近年来,许多新的分子生物手段被不断提出并整合到害虫遗传防治策略中,包括归巢核酸内切酶基因、锌指核酸酶、转录激活因子样效应因子核酸酶、CRISPR/Cas9系统、Medea元件、Killer-Rescue系统、Wolbachia-细胞质不亲和性系统等。基于这些新的工具手段,许多国家已经在不同程度上启动了下一代害虫遗传防治项目。而我国在该领域的研究相对薄弱,需要在借鉴国外成功经验的同时,进一步加强害虫遗传防治的基础和应用研究,从而实现本地有害生物的可持续治理和外来入侵生物的有效狙击,确保我国未来的粮食和生态安全。     

中国生物医药专利的分布及趋势分析

生物医药产业是中国重点发展的战略性新兴产业之一。本文对Derwent数据库中收录,在中国申请的与生物医药领域相关的专利申请数据进行了研究,分别从专利申请量及年度变化、生命周期、专利权人和德温特分类号等角度深入分析了生物医药专利的整体产出情况、重点技术领域和主要申请机构的专利战略布局情况。通过研究发现中国生物医药技术近年来发展迅速,已进入相对成熟阶段。     

酶工程专刊序言

酶工程是酶学与工程科学融合的综合性科学技术,是现代生物技术的支柱之一。近年来我国在酶工程研究方面取得了较大进步,为促进国内酶工程研究的发展,本期"酶工程专刊"集中展现了我国酶工程专家学者在酶促生物转化、医药用酶、饲料用酶、环境修复用酶和生物能源用酶等领域所取得的最新进展。     

Deciphering RNA m6A regulation in aging: Perspectives on current advances and future directions

N⁶-methyladenosine (m⁶A) is a dynamic and reversible RNA modification that has emerged as a crucial player in the life cycle of RNA, thus playing a pivotal role in various biological processes. In recent years, the potential involvement of RNA m⁶A modification in aging and age-related diseases has gained increasing attention, making it a promising target for understanding the molecular mechanisms underlying aging and developing new therapeutic strategies. This Perspective article will summarize the current advances in aging-related m⁶A regulation, highlighting the most significant findings and their implications for our understanding of cellular senescence and aging, and the potential for targeting RNA m⁶A regulation as a therapeutic strategy. We will also discuss the limitations and challenges in this field and provide insights into future research directions. By providing a comprehensive overview of the current state of the field, this Perspective article aims to facilitate further advances in our understanding of the molecular mechanisms underlying aging and to identify new therapeutic targets for aging-related diseases.     

肠道菌群与老年认知障碍的研究进展

认知减退是脑老化的一个重要特征,随着年龄的增长,炎症反应增加、抗氧化能力下降、血脑屏障损伤及海马结构变化都与老年人认知功能减退有关。近年来,越来越多的研究发现伴随年龄增长而发生的肠道微生物组成变化也是影响老年认知功能的重要原因,并逐渐成为老年认知障碍的重要研究靶点。大量研究发现,肠道菌群可经肠脑轴对老年认知功能产生影响,不仅可以通过神经递质、迷走神经、神经内分泌、免疫调节等途径影响大脑记忆、情感及其他认知领域的功能,还可以通过影响β-淀粉样蛋白沉积、脂多糖水平及小胶质细胞的发育与成熟影响认知功能。本文综述了近年来有关肠道菌群和老年认知功能障碍的相关进展,以期为老年认知障碍相关疾病的防治与康复提供新的思路。     

Recent developments in yeast aging

In the last decade, research into the molecular determinants of aging has progressed rapidly and much of this progress can be attributed to studies in invertebrate eukaryotic model organisms. Of these, single-celled yeast is the least complicated and most amenable to genetic and molecular manipulations. Supporting the use of this organism for aging research, increasing evidence has accumulated that a subset of pathways influencing longevity in yeast are conserved in other eukaryotes, including mammals. Here we briefly outline aging in yeast and describe recent findings that continue to keep this “simple” eukaryote at the forefront of aging research.     

Hot topics in stem cells and self‐renewal: 2010

In many tissues, mammalian aging is associated with a decline in the replicative and functional capacity of somatic stem cells and other self‐renewing compartments. Understanding the basis of this decline is a major goal of aging research. In particular, therapeutic approaches to ameliorate or reverse the age‐associated loss of stem function could be of use in clinical geriatrics. Such approaches include attempts to protect stem cells from age‐promoting damage, to ‘rejuvenate’ stem cells through the use of pharmacologic agents that mitigate aging‐induced alterations in signaling, and to replace lost stem cells through regenerative medicine approaches. Some headway has been made in each of these arenas over the last 18 months including advances in the production of donor‐specific totipotent stem cells through induced pluripotency (iPS), gains in our understanding of how tumor suppressor signaling is controlled in self‐renewing compartments to regulate aging, and further demonstration of extracellular ‘milieu’ factors that perturb stem cell function with age. This period has also been marked by the recent award of the Nobel Prize in Physiology or Medicine for elucidation of telomeres and telomerase, a topic of critical importance to stem cell aging.     

编者按: 神奇的“胶水”细胞

胶质细胞是一类神经系统中区别于神经元的一大类细胞，其数量是神经元的10~50倍。而且在相当长的一段时间胶质细胞也被认为是神经系统中的一种“胶水”，仅起到黏结神经元和填充神经系统的作用。随着近几十年神经科学的发展，神经生物学家们发现，胶质细胞的功能多种多样，并参与记忆、认知、神经发育性和退行性疾病，甚至衰老等高级功能。通过PubMed查询，中国胶质细胞相关论文的十年增长率为270%，远远高于全球平均增长率140%，说明中国在胶质细胞方面的研究势头非常强劲。本期《生物化学与生物物理进展》刊出了围绕胶质细胞的20余篇论文。涵盖胶质细胞的生理功能和病理功能的各个方面。本期的刊行将有利于推动国内胶质细胞科学研究，并为中国脑计划提供参考。     

布鲁氏茵病防治基础研究现状与展望

布鲁氏菌病（简称布病）是由布鲁氏菌属细菌侵入机体引起的人畜共患传染病．近年来,布病疫情在世界范围内呈反弹趋势,我国尤甚．进入2000年以后,人间布病在我国成为报告发病数上升速度最快的传染病之一,令我国布病防治形势严峻．为了明确我国布病防治工作的现状和需求、最新研究现状和研究动态以及面临的挑战和机遇,深入研讨分析我国布病防治研究中的重大科学和关键技术问题,凝练和提出今后我国布病防治研究发展中亟需关注、解决的重要基础科学问题,在国家自然科学基金委员会资助下,由中国疾病预防控制中心地方病控制中心主办,哈尔滨医科大学、中国疾病预防控制中心传染病预防控制所和内蒙古地方病防治研究中心共同协办,于2013年6月21日召开了由来自全国布病防治与基础研究领域专家共同参加的“布鲁氏菌病防治基础研究发展战略研讨会”．会议在我国布病疫情最重的省份内蒙古自治区呼和浩特市召开,中国疾病预防控制中心传染病预防控制所、军事医学科学院疾病预防控制所、石河子大学、中国兽医药品监察所等19家从事布病防治与基础研究的科研院所、高等院校、疾病防治机构的40余位专家参加了此次会议．现结合文献资料以及本次会议的内容,对国内外布病流行现状、研究进展,以及影响我国布病防治的亟需解决的科学问题和建议作一综述．     

La eclosión de la sarcopenia: Informe preliminar del Observatorio de la Sarcopenia de la Sociedad Española de Geriatría y Gerontología

Sarcopenia is a common and prominent geriatric syndrome, of major interest for daily clinical practice of professionals working with older people. The number of affected individuals and its relation with disability, frailty, many chronic diseases, lifestyle and adverse outcomes are extremely relevant for geriatric care. Moreover, biological changes that lead to the loss of muscle mass and strength are intrinsically related to the mechanisms of aging. It is not therefore surprising that research in this field is growing exponentially in recent years, and sarcopenia has been placed in recent years in the forefront of research in geriatric medicine and gerontology.The Spanish Society of Geriatrics and Gerontology has recently created an Observatory of Sarcopenia, which aims to promote educational and research activities in this field. The first activity of the Observatory has been to offer the Spanish speaking scientific community a review of the current status of sarcopenia, that may allow unifying concepts and fostering interest in this promising field of geriatrics.     

DNA甲基化与衰老研究进展

DNA甲基化与衰老的研究是近年来生命科学领域研究的热点之一。综述了DNA甲基化理论研究进展和探讨影响甲基化与衰老的主要因素,以揭示两者之间可能存在的联系。     

The emergent role of sarcopenia: Preliminary Report of the Observatory of Sarcopenia of the Spanish Society of Geriatrics and Gerontology

Sarcopenia is a common and prominent geriatric syndrome, of major interest for daily clinical practice of professionals working with older people. The number of affected individuals and its relation with disability, frailty, many chronic diseases, lifestyle and adverse outcomes are extremely relevant for geriatric care. Moreover, biological changes that lead to the loss of muscle mass and strength are intrinsically related to the mechanisms of aging. It is not therefore surprising that research in this field is growing exponentially in recent years, and sarcopenia has been placed in recent years in the forefront of research in geriatric medicine and gerontology. The Spanish Society of Geriatrics and Gerontology has recently created an Observatory of Sarcopenia, which aims to promote educational and research activities in this field. The first activity of the Observatory has been to offer the Spanish speaking scientific community a review of the current status of sarcopenia, that may allow unifying concepts and fostering interest in this promising field of geriatrics.