Avian HSC emergence, migration, and commitment toward the T cell lineage

To date three sites of emergence of hemopoietin cells have been identified during early avian development: the yolk sac, the intraaortic clusters and recently the allantois. However, the contributions of the hematopoietic stem cell (HSC) populations generated by these different sites to definitive hematopoiesis and their migration routes are not fully unraveled. Experimental embryology as well as the establishment of the genetic cascades involved in HSC emergence help now to draw a better scheme of these processes.     

Kmt2c mutations enhance HSC self-renewal capacity and convey a selective advantage after chemotherapy

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Megakaryocytes are essential for HSC quiescence through the production of thrombopoietin

Tissue homeostasis demands regulatory feedback, suggesting that hematopoietic stem cell (HSC) activity is controlled in part by HSC progeny. Yet, cell extrinsic HSC regulation has been well characterized only in niche cells of non-hematopoietic origin. Here we identify feedback regulation of HSCs by megakaryocytes (Mks), which are mature hematopoietic cells, through production of thrombopoietin (Thpo), a cytokine pertinent for HSC maintenance. Induced ablation of Mk cell population in mice perturbed quiescent HSCs in bone marrow (BM). The ablation of Mks resulted in decreased intra-BM Thpo concentration presumably due to Thpo production by Mks. Thpo administration Mk ablated mice restored HSC functions. Overall, our study establishes Mk as an essential cellular component of the HSC niche and delineates cytokine-oriented regulation of HSCs by their own progeny.     

Identification of in vitro HSC fate regulators by differential lipid raft clustering

Most hematopoietic stem cells (HSC) in the bone marrow reside in a quiescent state and occasionally enter the cell cycle upon cytokine-induced activation. Although the mechanisms regulating HSC quiescence and activation remain poorly defined, recent studies have revealed a role of lipid raft clustering (LRC) in HSC activation. Here, we tested the hypothesis that changes in lipid raft distribution could serve as an indicator of the quiescent and activated state of HSCs in response to putative niche signals. A semi-automated image analysis tool was developed to map the presence or absence of lipid raft clusters in live HSCs cultured for just one hour in serum-free medium supplemented with stem cell factor (SCF). By screening the ability of 19 protein candidates to alter lipid raft dynamics, we identified six factors that induced either a marked decrease (Wnt5a, Wnt3a and Osteopontin) or increase (IL3, IL6 and VEGF) in LRC. Cell cycle kinetics of single HSCs exposed to these factors revealed a correlation of LRC dynamics and proliferation kinetics: factors that decreased LRC slowed down cell cycle kinetics, while factors that increased LRC led to faster and more synchronous cycling. The possibility of identifying, by LRC analysis at very early time points, whether a stem cell is activated and possibly committed upon exposure to a signaling cue of interest could open up new avenues for large-scale screening efforts.     

干细胞理论及研究进展

干细胞是目前细胞工程研究最活跃的领域,通过对各种干细胞的界定,胚胎干细胞和成体干细胞的比较研究、以及干细胞的技术应用,揭示出干细胞尤其是胚胎干细胞在医学以及整个生命科学中的巨大潜势,乃至于引发医学领域的重大变革。     

干细胞巢研究进展

干细胞巢即干细胞周围的微环境构成,一般包括干细胞的相邻细胞、粘附分子及基质等,但不同的干细胞有不同的巢结构。干细胞巢通过不同信号途径调控着干细胞的行为,使干细胞的自我更新和分化处于平衡状态。根据近年来有关干细胞巢的研究,本文从果蝇生殖系干细胞巢、哺乳动物造血干细胞巢、肠干细胞巢、毛囊表皮干细胞巢和神经干细胞巢等五个系统分别综述了干细胞巢的构成及其对干细胞的调节作用,探讨了干细胞巢作用于干细胞的内在机制。     

Dissecting ELANE neutropenia pathogenicity by human HSC gene editing

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Establishment and regulation of the HSC niche: Roles of osteoblastic and vascular compartments

Hematopoietic stem cells (HSC) are multi-potent cells that function to generate a lifelong supply of all blood cell types. During mammalian embryogenesis, sites of hematopoiesis change over the course of gestation: from extraembryonic yolk sac and placenta, to embryonic aorta-gonad-mesonephros region, fetal liver, and finally fetal bond marrow where HSC reside postnatally. These tissues provide microenviroments for de novo HSC formation, as well as HSC maturation and expansion. Within adult bone marrow, HSC self-renewal and differentiation are thought to be regulated by two major cellular components within their so-called niche: osteoblasts and vascular endothelial cells. This review focuses on HSC generation within, and migration to, different tissues during development, and also provides a summary of major regulatory factors provided by osteoblasts and vascular endothelial cells within the adult bone marrow niche.     

利用成体干细胞治疗糖尿病

糖尿病是一类严重的代谢疾病, 正危害着世界上越来越多人口的健康。胰岛移植是一种治疗糖尿病的有效方法,却因供体缺乏和移植后免疫排斥问题制约了其广泛应用。干细胞为具有强增殖能力和多向分化潜能的细胞, 是利用细胞替代疗法治疗重大疾病的细胞来源之一, 其中成体干细胞因不存在致瘤性及伦理道德问题而被人们寄予厚望。成体胰腺干细胞在活体损伤及离体培养条件下均能产生胰岛素分泌细胞, 肝干细胞、骨髓干细胞和肠干细胞等在特定离体培养条件下或经过遗传改造后也均可产生胰岛素分泌细胞, 将这些干细胞来源的胰岛素分泌细胞移植到模型糖尿病小鼠中可以治疗糖尿病。因而, 成体干细胞可以为细胞替代疗法治疗糖尿病提供丰富的胰岛供体来源。     

BMP signaling and stem cell regulation

Stem cells play an essential role in cellular specialization and pattern formation during embryogenesis and in tissue regeneration in adults. This is mainly due to a stem cell's ability to replenish itself (self-renewal) and, at the same time, produce differentiated progeny. Realization of these special stem cell features has changed the prospective of the field. However, regulation of stem cell self-renewal and maintenance of its potentiality require a complicated regulatory network of both extracellular cues and intrinsic programs. Understanding how signaling regulates stem cell behavior will shed light on the molecular mechanisms underlying stem cell self-renewal. In this review, we focus on comparing the progress of recent research regarding the roles of the BMP signaling pathway in different stem cell systems, including embryonic stem cells, germline stem cells, hematopoietic stem cells, and intestinal stem cells. We hope this comparison, together with a brief look at other signaling pathways, will bring a more balanced view of BMP signaling in regulation of stem cell properties, and further point to a general principle that self-renewal of stem cells may require a combination of maintenance of proliferation potential, inhibition of apoptosis, and blocking of differentiation.     

Leukapheresis cell concentration adjustment required for a successful recovery of HSC after cryopreservation

The recovering of an adequate number of hematopoietic stem cells after cryopreservation is considered pivotal for successful transplantation. Various factors could influence the recovery of HSC following processing and cryopreservation. Therefore, leukapheresis product from thirty patients was cryopreserved in 10% DMSO in cryopreservation bags for their autologous bone marrow transplantation, and 2 ml were cryopreserved in cryovials for post-thaw viability assessment by flow cytometry. The percentage of viable HSCs recovered post-cryopreservation in leukapheresis product was significantly influenced by the concentration of the total nucleated cells cryopreserved per volume. Patients receiving a higher rate of viable HSCs resulted in earlier engraftment of both neutrophils and platelets, so they have been discharged earlier from the hospital. Furthermore, Storage temperature and duration played a role in the recovery of these cells and for the support of the findings, age of the patient at the time of collection did not show any impact on the recovery of this HSC post-cryopreservation. In conclusion, various influencing factors must be taken into consideration during the cryopreservation of HSCs, especially for poor mobilizing patients with a low number of collected hematopoietic stem cells.     

Membrane glycolipids in stem cells

Stem cells, such as embryonic stem cells, hematopoietic stem cells, neural stem cells, mesenchymal stem cells, and very small embryonic-like stem cells, are undifferentiated cells that are endowed with a high potential for proliferation and the capacity for self-renewal with retention of pluri/multipotency to differentiate into their progenies. Recently, studies regarding the biological functions of glycolipids and cell surface microdomains (caveolae, lipid rafts, or glycolipid-enriched microdomains) in stem cells are emerging. In this review, we introduce the expression patterns of glycolipids and the functional roles of cell surface microdomains in stem cells.     

干细胞在 1 型糖尿病治疗中的应用研究进展

1型糖尿病（T1D）是一种慢性、多因素自身免疫性疾病,在发病过程中,会不断破坏胰岛β细胞,最终导致胰岛素分泌不足, 严重威胁人类健康。目前,根治T1D的主要方法是胰岛移植,即将移植的胰岛替代体内已被疾病破坏的胰岛细胞,以恢复正常血糖。但 是,胰岛移植供体的缺乏和移植免疫排斥反应,给胰岛移植的临床应用带来巨大挑战。近年来,干细胞治疗为T1D提供了一种新疗法, 成为T1D治疗领域新的研究热点,为该病的治疗提供了新思路。综述不同来源干细胞——胚胎干细胞、诱导多能干细胞和成体干细胞用 于治疗T1D的研究进展。     

Implications for human adipose‐derived stem cells in plastic surgery

Adipose‐derived stem cells (ADSCs) are a subset of mesenchymal stem cells (MSCs) that possess many of the same regenerative properties as other MSCs. However, the ubiquitous presence of ADSCs and their ease of access in human tissue have led to a burgeoning field of research. The plastic surgeon is uniquely positioned to harness this technology because of the relative frequency in which they perform procedures such as liposuction and autologous fat grafting. This review examines the current landscape of ADSC isolation and identification, summarizes the current applications of ADSCs in the field of plastic surgery, discusses the risks associated with their use, current barriers to universal clinical translatability, and surveys the latest research which may help to overcome these obstacles.     

The Drosophila ovary： an active stem cell community

The authors want to change the Cover Caption of Cell Research, Volume 17, Issue 1. The corrected Cover Caption should be＂ Germline stem cells （green dots） at the tip of the Drosophila ovariole generate the germline cells of the egg chambers （large blue circles denote nurse cells）. See page 15-25 for more details.＂     

The Drosophila ovary: an active stem cell community

Only a small number of cells in adult tissues (the stem cells) possess the ability to self-renew at every cell division,while producing differentiating daughter cells to maintain tissue homeostasis for an organism's lifetime.The Drosophilaovary harbors three different types of stem cell populations (germline stem cell (GSC),somatic stem cell (SSC) andescort stem cell (ESC)) located in a simple anatomical structure known as germarium,rendering it one of the best modelsystems for studying stem cell biology due to reliable stem cell identification and available sophisticated genetic toolsfor manipulating gene functions.Particularly,the niche for the GSC is among the first and best studied ones,and studieson the GSC and its niche have made many unique contributions to a better understanding of relationships between stemcells and their niche.So far,both the GSC and the SSC have been shown to be regulated by extrinsic factors originatingfrom their niche and intrinsic factors functioning within.Multiple signaling pathways are required for controlling GSCand SSC self-renewal and differentiation,which provide unique opportunities to investigate how multiple signals fromthe niche are interpreted in the stem cell.Since the Drosophila ovary contains three types of stem cells,it also providesoutstanding opportunities to study how multiple stem cells in a given tissue work collaboratively to contribute to tissuefunction and maintenance.This review highlights recent major advances in studying Drosophila ovarian stem cells andalso discusses future directions and challenges.     

成体干细胞研究进展

近年来由于成体干细胞研究技术的突破 ,成体干细胞的多向分化潜能日益为人们所关注。尤其“横向分化”的发现 ,不仅更新了对成体干细胞的传统认识 ,而且为其临床疾病治疗奠定了基础。介绍了成体干细胞的特点及分化潜能 ,并对其临床应用作了概括性讨论。     

神经干细胞移植的临床研究进展

神经系统损伤会导致脑内神经干细胞（neural stem cells,NSCs）的扩增以实现自我修复功能,而通过外源细胞移植的方式来加速这一进程,可能是一种更有效的治疗手段。当前,神经干细胞临床研究所面临的主要问题是如何评价细胞在移植后的行为和功能。该文综述了近几年使用神经干细胞移植治疗几种主要神经系统疾病的临床研究成果,并着重关注了干细胞移植后的示踪研究。