Stem cell therapy in stroke: designing clinical trials

Stroke is a common and disabling condition that represents a potentially attractive target for regenerative therapy. Stem cells from a wide range of origins have been investigated in studies using animal models of stroke, with evidence that neural or mesenchymal cells migrate to the site of ischemic injury after intravascular or intraparenchymal delivery, and that a proportion of cells survive and differentiate into cells with characteristics of neurons or glia. In some studies there is evidence of electrical function of transplanted cells. Some studies report improvements in neurological function with cell implantation even when undertaken up to 30 days after the stroke is induced. Few clinical trials have been undertaken to date, with two studies of a teratocarcinoma-derived cell line delivered by direct brain injection, and two of bone-marrow derived mesenchymal stem cells delivered intravascularly. Ongoing trials of other cell lines are exploring safety. There are considerable difficulties in designing future efficacy trials, some being generic to the field of regenerative treatment in stroke, and some that are specific to stem cells or their mode of delivery.     

WJSC 6th Anniversary Special Issues（2）:Mesenchymal stem cells Enhancing the efficacy of mesenchymal stem cell therapy

Mesenchymal stem cell(MSC)therapy is entering a challenging phase after completion of many preclinical and clinical trials.Among the major hurdles encountered in MSC therapy are inconsistent stem cell potency,poor cell engraftment and survival,and age/disease-related host tissue impairment.The recognition that MSCs primarily mediate therapeutic benefits through paracrine mechanisms independent of cell differentiation provides a promising framework for enhancing stem cell potency and therapeutic benefits.Several MSC priming approaches are highlighted,which will likely allow us to harness the full potential of adult stem cells for their future routine clinical use.     

三种老年痴呆动物模型行为学比较

目的老年大鼠、基底前脑损伤大鼠及注射东莨菪碱大鼠常作为老年性痴呆的动物模型,本研究对这三种模型的行为表现进行比较研究。方法采用水迷宫及旷场分析法对这三种模型及青年对照和假手术对照进行了研究。结果老年大鼠、基底前脑损伤大鼠和注射东莨菪碱大鼠的学习记忆能力显著减弱,老年大鼠对新环境的紧张程度增强;基底前脑损伤大鼠和注射东莨菪碱大鼠的空间认知能力显著下降;注射东莨菪碱大鼠的兴奋性异常增强,（Ｐ＜００５）。结论基底前脑损伤动物的行为表现最符合老年痴呆患者的早期临床症状。     

人乳腺癌干细胞异种移植动物模型的制备和应用

越来越多的证据显示乳腺癌干细胞是导致乳腺癌发生、发展、复发和转移的根源。因此,模拟出与人乳腺癌发病机制相似的动物模型将对乳腺癌的治疗起着至关重要的作用。本文旨在介绍乳腺癌干细胞异种移植动物模型的制备方法、应用以及近年来的研究进展。     

非酒精性脂肪性肝病的发病机制及治疗进展

近年来,随着人们生活水平的提高,脂肪性肝病的发病率明显上升,且患病年龄趋于低龄化,已经成为严重危害我国人民健康的常见疾病,我国非酒精性脂肪性肝病的发病率明显高于酒精性脂肪性肝病。本文主要对NAFLD的发病机制及相关治疗进展做简要的综述。NAFLD的发病机制与胰岛素抵抗、氧化应激、代谢综合征、脂肪细胞因子的作用、内质网应激、及铁超载等多种因素有关。NAFLD的治疗可以从防治原发病或相关危险因素、基础治疗(行为或生活方式干预;调整饮食;运动疗法)、药物治疗以及手术治疗等方面进行。了解国际上NAFLD的发病机制以及相关治疗进展,对遏制非酒精性脂肪性肝病的发生、发展趋势有着十分重要的意义。     

WJSC 6th Anniversary Special Issues（2）:Mesenchymal stem cells Progress of mesenchymal stem cell therapy for neural and retinal diseases

Complex circuitry and limited regenerative power make central nervous system(CNS)disorders the most challenging and difficult for functional repair.With elusive disease mechanisms,traditional surgical and medical interventions merely slow down the progression of the neurodegenerative diseases.However,the number of neurons still diminishes in many patients.Recently,stem cell therapy has been proposed as a viable option.Mesenchymal stem cells(MSCs),a widely-studied human adult stem cell population,have been discovered for more than 20 years.MSCs have been found all over the body and can be conveniently obtained from different accessible tissues:bone marrow,blood,and adipose and dental tissue.MSCs have high proliferative and differentiation abilities,providing an inexhaustible source of neurons and glia for cell replacement therapy.Moreover,MSCs also show neuroprotective effects without any genetic modification or reprogramming.In addition,the extraordinary immunomodulatory properties of MSCs enable autologous and heterologous transplantation.These qualities heighten the clinical applicability of MSCs when dealing with the pathologies of CNS disorders.Here,we summarize the latest progress of MSC experimental research as well as human clinical trials for neural and retinal diseases.This review article will focus on multiple sclerosis,spinal cord injury,autism,glaucoma,retinitis pigmentosa and age-related macular degeneration.     

Alzheimer's disease and estrogen

The preventive effect of estrogen on Alzheimer's disease (AD) has become clear with epidemiological data. Therapeutic effects of estrogen have not yet been established. In this presentation, we report our new basic and clinical data. The estrogen receptor, (ER), and ERβ mRNA were investigated in rat brain. Estradiol-17β (E₂) treatment following OVX reduced the levels of ER mRNA in the hypothalamus. In the substantia innominata (SI), the number of choline acetyltransferase immunoreacive cells increased significantly in the estrogen treatment rat. The neurons in SI projecting to the forebrain cortex contained ER. Increasing amounts of intracellular calcium, peroxidation, and apoptosis with amyloid β were suppressed in neuronal cells from rat pheochromocytoma (PC12) cells with E₂. ER cDNA transfected PC 12 cells elaborated more neurite-like processes with E₂. In clinics, we are currently preparing vaginal progesterone tablets, which essentially may concentrate in the endometrium to prevent endometrial cancer, with few general circulation of progesterone inviting less depression. The therapeutic effects of cyclic estrogen, such as its preventive effect, are suggested in these studies, at least on mild AD.     

Cell cycle-driven neuronal apoptosis specifically linked to amyloid peptide Abeta1-42 exposure is not exacerbated in a mouse model of presenilin-1 familial Alzheimer's disease

We have shown previously that β-catenin and cyclin D1 are up-regulated in cortical neurons from homozygous mice carrying the familial Alzheimer's disease (FAD) presenilin-1 M146V mutation in a knock-in model (PS1 KI^M146V mice), leading to cell cycle-associated apoptosis. Here, we have aimed to determine (i) whether this phenotype is present in heterozygous PS1 KI^M146V mice, which reflects more accurately the PS1 FAD condition in humans and (ii) whether Aβ_1–42, which is invariably present in the PS1 FAD brain and is thought to affect neuronal cell cycle kinetics, may contribute to the abnormal cell cycle/cell death phenotype seen in PS1 KI^M146V mice. We demonstrate that cell cycle-linked apoptosis occurs in heterozygous PS1 KI^M146V post-mitotic neurons. In addition, there is a significant Aβ-associated increase in cell cycle and cell death that is not further modified by the PS1 KI^M146V mutation. Our results are consistent with a cell cycle-associated neurodegeneration model in the PS1 FAD brain in which the loss of PS1-dependent β-catenin regulatory function is sufficient to commit susceptible neurons to an abortive cell cycle, and may act synergistically with the Aβ cytotoxic challenge present in the PS1 FAD brain to expand the neuronal population susceptible to cell cycle-driven apoptosis.     

肝纤维化发病机制的研究进展

肝纤维化(liver fibrosis,LF)是一种可由多种致病因素导致的疾病,由于尚无有效的治疗手段,其已经严重地威胁着全球人的健康。虽然LF可以逆转,但更多会发生恶化进而发展为肝硬化和肝癌。目前为止,其发病机制已经可以从多方面被阐述。肝星状细胞(hepatic stellate cells,HSCs)是LF发展的中心和关键,而其他细胞也成为影响纤维化必不可少的因素。它们以细胞因子为联系,并大量分泌首要的细胞因子-转化生长因子-β1-来刺激HSCs的激活和增殖。最终,它们共同导致胶原的沉积和细胞外基质(extracellular matrix,ECM)结构的紊乱。而这其中,长链非编码RNA也积极参与了对纤维化过程的影响。本综述将从细胞、细胞因子、ECM以及基因等方面对LF的发生和发展进行探讨,从而有助于我们明确LF的发病机制,并为研发LF有效的治疗方法提供方向。     

NK cell activation by dendritic cell vaccine: a mechanism of action for clinical activity

Recent reports revealed that dendritic cell (DC)–natural killer (NK) cell interaction plays an important role in tumor immunity, but few DC vaccine studies have attempted to evaluate the non-specific, yet potentially clinically relevant, NK response to immunization. In this study, we first analyzed in vitro activation of NK cells by DCs similar to those used in clinical trials. Subsequently, NK cell responses were analyzed in a phase I clinical trial of a vaccine consisting of autologous DCs loaded with a fowlpox vector encoding CEA. The data were compared with the clinical outcome of the patients. DC enhances NK activity in vitro, partly by sustaining NK cell survival and by enhancing the expression of NK-activating receptors, including NKp46 and NKG2D. Among nine patients in our clinical trial, NK cytolytic activity increased in four (range 2.5–5 times greater lytic activity) including three who had increased NK cell frequency, was stable in two and decreased in three. NKp46 and NKG2D expression showed a good correlation with the patients’ NK activity. When patients were grouped by clinical activity (stable disease/no evidence of disease (stable/NE, n=5) vs progressive disease (N=4) at 3 months), the majority in the stable/NE group had increases in NK activity (P=0.016). Anti-CEA T cell response was enhanced in all the nine patients analyzed, but was not significantly different between the two groups (P=0.14). Thus, NK responses following DC vaccination may correlate more closely with clinical outcome than do T cell responses. Monitoring of NK response during vaccine studies should be routinely performed.     

Development of a dendritic cell-based vaccine for chronic lymphocytic leukemia

Evidence for the existence of CLL-specific antigens recognized by the immune system can be gathered from the observation that many patients display monoclonal or oligoclonal expansions and skewed repertoire of T cells. In vitro functional studies have shown that tumor-specific T-cells are able to lyse the leukemic cells. Antileukemic cellular immunity may be boosted in vivo using dendritic cell-based immunotherapy. Our preclinical studies provide evidence that DC that had endocytosed apoptotic CLL cells (Apo-DC) were superior to fusion hybrids, tumor lysate or RNA in eliciting antileukemic T-cell responses in vitro. We have validated a method for enriching the small number of monocyte precursors present in the peripheral blood of CLL patients and utilize them for generating individualized, Apo-DC cellular vaccines. In most cases, a minimum of 50 x 10(6) Apo-DC could be generated, beginning with immunomagnetically enriched monocytes from a single leukapheresis product containing at least 1% CD14+ cells. Cryopreservation and thawing did not affect the phenotype or the T cell stimulatory function of Apo-DC. A phase I/II, open label clinical trial examining the feasibility, safety and immunogenicity of Apo-DC vaccination has been initiated. CLL patients receive 10(7) Apo-DC for at least five immunizations and monitored clinically and immunologically for 52 weeks. Three cohorts are accrued stepwise. Cohort I receives Apo-DC alone; Cohort II: Apo-DC+ repeated doses of low-dose GM-CSF; Cohort III: low-dose cyclophosphamide followed by Apo-DC + GM-CSF.     

登革病毒疫苗研究进展

登革病毒属黄病毒属,可通过蚊虫传播,感染人体后可引发一系列临床症状,从轻微发热到严重的并发症,称为登革热、登革出血热以及登革休克综合征。过去50年,全球登革热感染病例增加了约30倍。目前,全球热带、亚热带地区约占世界2/5的人口存在感染风险。由于缺乏有效的治疗药物,疫苗研究已成为登革热疾病防控的重心。然而,由于缺乏对病毒致病机理及病毒感染免疫应答深入的了解,候选疫苗的研发受到阻碍。但经过几十年的努力,疫苗研究取得了明显进展。目前正在研究的登革病毒疫苗依托各种技术平台,种类多样,对正处于临床前研究及临床试验阶段的不同类型疫苗进行阐述。     

病理性瘢痕的发病机制及临床治疗方法的进展

增生性瘢痕和瘢痕疙瘩是临床上常见的病理性瘢痕。本文阐述了局部和全身因素对其形成的影响机制,并对其临床治疗方法的现状和将来的可能性治疗作一概述。