天下生命科学前沿动态周报（七十七）

2012年-06月-02日泉源：mebo

（5.27-6.2/2012）
一竞技国际集团:陶国新

　　主要内容：胎盘干细胞多能性的治疗学潜力；脂肪组织间充质干细胞的机械力学性子反应其分解潜能；免疫抑制受体维持正常成体干细胞的干细胞性子；血浆卵白的纤溶酶原可能治疗慢性糖尿病创伤；新发明有望改变狼疮和哮喘的研究偏向；新的干细胞作育手艺可稳固的大宗生产心肌细胞。

　　焦点动态：胎盘干细胞多能性的治疗学潜力；血浆卵白的纤溶酶原可能治疗慢性糖尿病创伤。

1. 胎盘干细胞多能性的治疗学潜力

【动态】美国科学家的研究最近发明能够从人体胎盘绒毛膜大宗网络胎盘干细胞，这些干细胞有很主要的治疗性能。绒毛膜是胞衣的一部分，通常在产后被扬弃，可是它内里含有源于胚胎的多醒目细胞，这些干细胞能够分解成差别类型的人体细胞。相关于胚胎干细胞，来自胎盘的干细胞常被视为“成体”干细胞。但相关于成体干细胞，胎盘干细胞只有9个月大，并且不需要重编程就已具有多能性。人体绒毛膜间充质干细胞能够复制凌驾100代而端粒长度坚持稳固，同时还不激活端粒酶活性。这些细胞高度表达胚胎干细胞的标记物OCT-4, NANOG, SSEA-3, 和TRA-1–60，在体外能够分解成为所有三个胚层的组织。该研究批注胎盘干细胞比骨髓移植的治疗潜力更大更广，它们不但能够分解成许多差别类型的细胞，还能够生爆发长因子资助组织修复。在老鼠中移植的胎盘干细胞能够与差别类型的组织融为一体，与胚胎多醒目细胞相比，在老鼠身上胎盘干细胞不形成肿瘤样结构。重新鲜或冷冻的人体胎盘都能够疏散出功效性的胎盘干细胞，这意味着若是每小我私家的胎盘在出生时贮存起来而不是丢掉，那么未来有治疗需要时就可以从中获取胎盘干细胞。

【点评】相比于胚胎干细胞和诱导多醒目细胞，胎盘干细胞在伦理方面和清静有用方面都是更好的选择，只是怎样能真正转化为一种临床治疗手段还需要许多的研究。

【参考论文】
Stem Cells Trans Med, May 8, 2012 DOI:10.5966/sctm.2011-0021
Multipotent Stromal Stem Cells from Human Placenta Demonstrate High Therapeutic Potential
Igor Nazarov, Jae W. Lee, Eric Soupene, et al.
We describe human chorionic mesenchymal stem cell (hCMSC) lines obtained from the chorion of human term placenta with high therapeutic potential in human organ pathology. hCMSCs propagated for more than 100 doublings without a decrease in telomere length and with no telomerase activity. Cells were highly positive for the embryonic stem cell markers OCT-4, NANOG, SSEA-3, and TRA-1–60. In vitro, cells could be differentiated into neuron-like cells (ectoderm), adipocytes, osteoblasts, endothelial-like cells (mesoderm), and hepatocytes (endoderm)—derivatives of all three germ layers. hCMSCs effectively facilitated repair of injured epithelium as demonstrated in an ex vivo-perfused human lung preparation injured by Escherichia coli endotoxin and in in vitro human lung epithelial cultures. We conclude that the chorion of human term placenta is an abundant source of multipotent stem cells that are promising candidates for cell-based therapies.

2. 脂肪组织间充质干细胞的机械力学性子反应其分解潜能
【动态】组织工程学家能够使用来自脂肪的间充质干细胞（ASC）制造软骨，骨组织或更多脂肪。最好用的细胞是那些已经像是要酿成期望细胞的细胞。只管ASC因其免疫原性和多能性方面的特点而成为很是吸引人的干细胞源，但必需先得用外貌标记物从其他细胞中纯化出来才华现实使用，这是要害一步，也被证实是很难题的一步。美国科学家最近的研究用原子力显微镜检测未分解ASC的弹性和粘性，并将这类“机械生物标记”与其谱系特异的分解产品相关联，发明来自脂肪的成体干细胞的硬度、粘度和其他机械性子能够展望它们会酿成哪种细胞。这一发明会有助于从众多组织样品中筛选出需要的细胞，富集组织特异性的细胞和大大提高再生组织的质量。

【点评】干细胞的物理性子能够反应出它的分解潜能，或者说其物理性子能够决议它分解成哪种细胞。这为筛选特定的细胞群提供了明确的标准，有助于增进干细胞定向分解的研究以及转化应用的开发。

【参考论文】
PNAS, 2012 DOI:10.1073/pnas.1120349109
Cellular mechanical properties reflect the differentiation potential of adipose-derived mesenchymal stem cells
Rafael D. González-Cruz, Vera C. Fonseca, and Eric M. Darling.
The mechanical properties of adipose-derived stem cell (ASC) clones correlate with their ability to produce tissue-specific metabolites, a finding that has dramatic implications for cell-based regenerative therapies. Autologous ASCs are an attractive cell source due to their immunogenicity and multipotent characteristics. However, for practical applications ASCs must first be purified from other cell types, a critical step which has proven difficult using surface-marker approaches. Alternative enrichment strategies identifying broad categories of tissue-specific cells are necessary for translational applications. One possibility developed in our lab uses single-cell mechanical properties as predictive biomarkers of ASC clonal differentiation capability. Elastic and viscoelastic properties of undifferentiated ASCs were tested via atomic force microscopy and correlated with lineage-specific metabolite production. Cell sorting simulations based on these “mechanical biomarkers” indicated they were predictive of differentiation capability and could be used to enrich for tissue-specific cells, which if implemented could dramatically improve the quality of regenerated tissues.

3. 免疫抑制受体维持正常成体干细胞的干细胞性子
【动态】中美日科学家的团结研究发明一种免疫系统的受体在坚持干细胞不分解和资助血癌细胞生长方面起到意外的要害作用。癌细胞快速增殖部分是由于它们不可分解成成熟细胞，能够诱导分解的药物可用于癌症治疗。新的研究在癌细胞上判断出了一种抑制分解的卵白受体，名为古板免疫抑制受体，作用是维持正常成体干细胞的干细胞性子，在白血病的爆发中有主要作用。这类受体卵白家族的研究或许会开拓一个整合免疫学与干细胞和癌症的新研究领域。该研究发明人体免疫抑制受体LILRB2和老鼠细胞外貌响应的受体能够团结数种促血管新生卵白因子，其中两种与受体LILRB2团结细密，对细胞爆发抑制作用。在干细胞这种抑制使其坚持在干细胞状态，维持分解成成熟细胞的能力，而不是耗尽能量分解为成熟细胞。
【点评】该研究发明的抑制性受体因其维持正常成体干细胞的干细胞性子的功效而将免疫，干细胞，和癌细胞联系在一起，关于在整个有机体配景下研究干细胞和癌症可能会有意外的增进作用。

【参考论文】
Nature, 2012; 485 (7400): 656 DOI:10.1038/nature11095
Inhibitory receptors bind ANGPTLs and support blood stem cells and leukaemia development
Junke Zheng, Masato Umikawa, Changhao Cui, et al.
How environmental cues regulate adult stem cell and cancer cell activity through surface receptors is poorly understood. Angiopoietin-like proteins (ANGPTLs), a family of seven secreted glycoproteins, are known to support the activity of haematopoietic stem cells (HSCs) in vitro and in vivo. ANGPTLs also have important roles in lipid metabolism, angiogenesis and inflammation, but were considered ‘orphan ligands’ because no receptors were identified. Here we show that the immune-inhibitory receptor human leukocyte immunoglobulin-like receptor B2 (LILRB2) and its mouse orthologue paired immunoglobulin-like receptor (PIRB) are receptors for several ANGPTLs. LILRB2 and PIRB are expressed on human and mouse HSCs, respectively, and the binding of ANGPTLs to these receptors supported ex vivo expansion of HSCs. In mouse transplantation acute myeloid leukaemia models, a deficiency in intracellular signalling of PIRB resulted in increased differentiation of leukaemia cells, revealing that PIRB supports leukaemia development. Our study indicates an unexpected functional significance of classical immune-inhibitory receptors in maintenance of stemness of normal adult stem cells and in support of cancer development.

4. 血浆卵白的纤溶酶原可能治疗慢性糖尿病创伤
【动态】只管创伤愈合的研究已有数十年，关于慢性创伤特殊是糖尿病创伤依然缺乏有用的生物制剂用于治疗。瑞典科学家的最新研究报道了血浆卵白的纤溶酶原（plg）是增强老鼠创伤愈合的要害调理分子。纤溶酶原是众所周知的血浆卵白，产于肝脏，遍布全身体液中。他们发明在创伤处及其周围纤溶酶原浓度大大升高，并且是启动愈合必需的炎症反应的主要信号。但在糖尿病创伤纤溶酶原浓度没有同样的升高，这可能是糖尿病创伤难以愈合的缘故原由。给糖尿病老鼠和大鼠的创伤周边注射纤溶酶原后愈合历程马上启动了并最终完全愈合。在愈合历程早期，plg团结在炎症细胞上运至伤口处，使局部plg水平增添，诱生细胞活素和细胞内信号以及增强早期炎症反应。整体给与更多的plg不但增进了野生型老鼠的急性烧伤的愈合，也增进了糖尿病老鼠模子的慢性糖尿病创伤的愈合。其效果意味着使用血浆卵白的纤溶酶原可能会是治疗多种创伤尤其是像糖尿病创伤这种慢性创伤的新治疗战略。经由几年乐成的试验室研究后，该卵白已准备举行临床测试。

【点评】由于纤溶酶原是机体自身生产的血浆卵白，对机体自身险些没有免疫原性。若是在老鼠试验中发明的增进糖尿病创伤愈合的能够在人体临床实验重现，那么通过作育和使用纤溶酶原治疗慢性糖尿病创伤不失为一种清静有用的选择。

【参考论文】
Blood, 2012; DOI: 10.1182/blood-2012-01-407825
Plasminogen is a key pro-inflammatory regulator that accelerates the healing of acute and diabetic wounds.
Y. Shen, Y. Guo, P. Mikus, et al.
Despite decades of research on wound healing, effective biologic agents for the treatment of chronic wounds, especially diabetic wounds, are still lacking. In this study, we report that the inert plasma protein plasminogen (plg) acts as a key regulatory molecule that potentiates wound healing in mice. Early in the healing process, plg bound to inflammatory cells is transported to the wound area, where the level of plg is locally increased. This leads to induction of cytokines and intracellular signaling events and to a potentiation of the early inflammatory response. Systemic administration of additional plg not only accelerates the healing of acute burn wounds in wild-type mice but also improves the healing of chronic diabetic wounds in a mouse model of diabetes. Our results suggest that administration of plg may be a novel therapeutic strategy to treat many different types of wounds, especially those that are chronic, such as diabetic wounds.

5. 新发明有望改变狼疮和哮喘的研究偏向
【动态】美国科学家发明免疫系统的新机理展现以前从未思量过的药物种类有望治疗狼疮和哮喘等过敏性自身免疫疾病。凭证现在的疾病模子，吞噬入侵异物片断的树突细胞首先必需在淋投合内的副皮质区（或T细胞区）内遇到T淋巴细胞，才华使淋巴细胞克隆扩增随后进攻入侵的异物。但美国科学家新的研究发明只管在流感病毒熏染中免疫反应云云举行，但在其他情形并不总是以这种方法举行。例如，当身体熏染寄生虫后，树突细胞是在T细胞区之外B细胞相关信号的控制下在B淋巴细胞周围与T细胞联系。鉴于哮喘和狼疮等疾病的爆发是由于免疫系统过失的增强了机体通常用于对抗寄生虫的相同类型的T细胞免疫反应，该研究发明的B淋巴细胞控制触发此类反应的T细胞/树突细胞的相互作用具有主要的现实应用价值。几种已有的打断B细胞信号的试验性药物现在有理由看看是否能够成为潜在治疗T细胞引起的疾病。
【点评】该研究为哮喘和狼疮等自身免疫疾病开拓了一条新的研究思绪，虽然看上去很合理，但这条路能否奏效还需要更多的研究和临床测试。

【参考论文】
Nature Immunology, 2012; DOI: 10.1038/ni.2309
Regulation of TH2 development by CXCR5 dendritic cells and lymphotoxin-expressing B cells
Beatriz León, André Ballesteros-Tato, Jeffrey L Browning, et al.
Although cognate encounters between antigen-bearing dendritic cells (DCs) that express the chemokine receptor CCR7 and CCR7+ naive T cells take place in the T cell zone of lymph nodes, it is unknown whether the colocalization of DCs and T cells in the T cell area is required for the generation of effector cells. Here we found that after infection with an intestinal nematode, antigen-bearing DCs and CD4+ T cells upregulated the chemokine receptor CXCR5 and localized together outside the T cell zone by a mechanism dependent on the chemokine CXCL13, B cells and lymphotoxin. Notably, lymphotoxin-expressing B cells, CXCR5-expressing DCs and T cells, and CXCL13 were also necessary for development of interleukin 4 (IL-4)-producing type 2 helper T cells (TH2 cells), which suggests that TH2 differentiation can initiate outside the T cell zone.

6. 新的干细胞作育手艺可稳固的大宗生产心肌细胞
【动态】条新的研究思绪，虽然看上去很合理，但这条路能否奏效还需要更多的研究和临床测试。美国科学家最近报道了一种通过小分子化合物简朴操控一种要害发育途径将人体干细胞，包括胚胎干细胞和诱导多醒目细胞，转化为心肌细胞的要领，是替换血清和生长因子的稳固，廉价，并且更强力高效的途径，能在最终细胞群中可靠的获得凌驾80% 的心肌细胞，而其他要领只能获得30% 尚有较大的披间差别。

【点评】这种新的作育要领使用完全明确的小分子化合物取代生长因子，短暂的翻开和关闭一种主要的信号途径来协调细胞的重大发育历程。小分子的稳固性使作育更可重复，小分子的经济性使该要领破费更少。关于更稳固的获得更多的心肌细胞，这种要领是一种大的前进。

【参考论文】
PNAS, May 29, 2012, doi: 10.1073/pnas.1200250109
Robust cardiomyocyte differentiation from human pluripotent stem cells via temporal modulation of canonical Wnt signaling
Xiaojun Lian, Cheston Hsiaoa, Gisela Wilson, et al.

Human pluripotent stem cells (hPSCs) offer the potential to generate large numbers of functional cardiomyocytes from clonal and patient-specific cell sources. Here we show that temporal modulation of Wnt signaling is both essential and sufficient for efficient cardiac induction in hPSCs under defined, growth factor-free conditions. shRNA knockdown of β-catenin during the initial stage of hPSC differentiation fully blocked cardiomyocyte specification, whereas glycogen synthase kinase 3 inhibition at this point enhanced cardiomyocyte generation. Furthermore, sequential treatment of hPSCs with glycogen synthase kinase 3 inhibitors followed by inducible expression of β-catenin shRNA or chemical inhibitors of Wnt signaling produced a high yield of virtually (up to 98%) pure functional human cardiomyocytes from multiple hPSC lines. The robust ability to generate functional cardiomyocytes under defined, growth factor-free conditions solely by genetic or chemically mediated manipulation of a single developmental pathway should facilitate scalable production of cardiac cells suitable for research and regenerative applications.