Monoclonal Antibody‐Mediated Manipulation as a Tool for Dissecting Genetic Pathways Underlying Specific Embryonic Processes

The technology to produce monoclonal antibody (mAb) is one of mainstays supporting current biology. Identification and isolation of a specific molecule in situations where many other molecules coexist is the most popular way of using this technology. Some mAb can trigger or suppress the function of a given molecule, thus having a potential for use in manipulating developmental processes. A decade ago, we demonstrated that embryonic components of pigment cell development could be manipulated by injection of a mAb that inhibits the function of the c‐Kit tyrosine kinase receptor (RTK) into pregnant mice. While we believe that no other methods were available at that time to freely trigger or suppress the function of such molecules as c‐Kit, molecular genetic technologies enabling the same task have been developed recently. In this article, we want to give a general overview of our previous experience of using mAb for manipulating embryonic processes, and discuss the potential of this technology in the age of new molecular genetics.     

Heterogeneity of mouse primordial germ cells reflecting the distinct status of their differentiation, proliferation and apoptosis can be classified by the expression of cell surface proteins integrin α6 and c-Kit

Primordial germ cells (PGCs) in mouse embryos likely include heterogeneous cells having distinct cellular properties. In the present study, we found that heterogeneity of PGCs can be defined by the expression of integrin α6 and c-Kit. The changes in integrin α6 and c-Kit expression in PGCs were obvious as embryonic development progressed, and the PGCs became a mixture of populations consisting of cells with distinct levels of cell surface protein expression. The changes and heterogeneity of cell surface protein expression mainly reflected asynchronous differentiation of PGCs. Apoptosis of PGCs was biased in populations of c-Kit or integrin α6 negative PGCs at particular developmental stages, suggesting possible linkage between PGC apoptosis and the levels of expression of these cell surface proteins. Histochemical analysis confirmed the heterogeneous expression of c-Kit and integrin α6 in PGCs in embryonic gonads, and revealed that PGCs showing different levels of integrin α6 or c-Kit expression and the apoptotic PGCs were scattered and did not show specific localization within gonads. The present study enables us to analyze and isolate populations of living PGCs showing a distinct status of differentiation, or different properties of proliferation or of cell death in individual embryos, and provides a new strategy to examine the mechanisms of PGC development.     

Identification of a yolk sac cell population with hematopoietic activity in view of CD45/c-Kit expression

During murine embryonic development, primitive hematopoiesis occurs in the yolk sac (YS). Recent studies have shown that the YS also harbors definitive hematopoietic activity. However, the population of YS cells contributing to definitive hematopoiesis has not been identified. In this study, we characterized the hematopoietic cell populations in the YS of mouse embryos from E9.5 to E14.5 in view of the expression profiles of CD45 and c-Kit. The YS cells from E9.5 to E11.5 could be divided into six populations: CD45(-) c-Kit(-) , CD45(-) c-Kit(low) , CD45(-) c-Kit(high) , CD45(low) c-Kit(high) , CD45(high) c-Kit(high) and CD45(high) c-Kit(very low) . Among these populations, CD45(low) c-Kit(high) cells showed the highest multilineage hematopoietic colony-forming activity. Later in development, the YS cells from E12.5 to E14.5 lost the second and fourth populations (i.e., they retained CD45(-) c-Kit(-) , CD45(-) c-Kit(high) , CD45(high) c-Kit(high) and CD45(high) c-Kit(very low) cells), and concurrently with the disappearance of the CD45(low) c-Kit(high) population, no significant hematopoietic activity was found in any of the populations on and after E12.5. CD45(low) c-Kit(high) YS cells, which had a round morphology with a large nucleus, possessed the ability to differentiate into myeloid and B lymphoid cells when cultured with stromal cells. These findings suggest that CD45(low) c-Kit(high) YS cells include more undifferentiated cells than the other YS cell populations and possess in vitro potency to differentiate into multilineage hematopoietic cells. Furthermore, this cell population disappears from the YS at around E12.5, when the site of hematopoiesis has already shifted to the fetal liver and the placenta.     

构建MicroRNA．29a和microRNA-29c腺病毒并探讨其对膀胱癌细胞增殖能力的影响

构建miRNA．29a／c的重组腺病毒并观察其对膀胱癌T24细胞增殖能力的调控。以人全基因组DNA为模板,PcR扩增miR-29a、miR-29c,克隆至腺病毒穿梭载体pAdtrace．TO4-CMV。重组穿梭载体经pmeI线性化后与腺病毒骨架质粒pAdEasy-1共转化感受态大肠杆菌BJ5183,通过同源重组获得重组腺病毒质粒pAdEasy—1—miR-29a、pAdEasy—1．miR-29c,pacI线性化后转染HEK-293细胞,进行包装和扩增。实时荧光定量PcR检测感染腺病毒的膀胱癌T24细胞miR-29a、miR．29c的表达水平,并利用CCK．8实验检测细胞增殖能力。经DNA测序和限制性内切酶分析显示,重组腺病毒质粒pAdEasy—1—miR．29a、pAdEasy．1-miR-29c构建成功：感染腺病毒Ad—miR-29a和Ad—miR．29c后,经实时荧光定量PCR检测,膀胱癌细胞中miR．29a、miR．29c表达显著增高（P〈0．01）;过表达miR．29a／c后的CCK．8实验显示,细胞增殖能力明显低于对照组伊〈0．05）。以上说明已成功构建miR．29a、miR．29c腺病毒,过表达miR．29a／c可抑制膀胱癌细胞的增殖。     

人干细胞因子受体c-Kit稳定表达细胞株的构建

 干细胞因子 (SCF)是一种重要的造血因子 ,其受体c Kit具有酪氨酸激酶活性 .SCF c Kit介导的细胞内信号转导在造血、肥大细胞的生成及其功能、以及生殖细胞和黑色素细胞的发育中起着关键的作用 .通过构建人c kitcDNA的pcDNA3.1真核表达载体 ,转染不表达人c kit的小鼠髓系祖细胞FDC P1.经Zeocin抗性筛选 ,PCR、RT PCR、Western印迹分析、流式细胞仪分析等方法检测到人c kit基因的稳定整合和表达 ,并分布于细胞表面 ,证明获得了稳定表达人c Kit受体的细胞株 .用MTT法检测重组细胞株增殖特性 ,表明重组人SCF可刺激其增殖 .为进一步研究人c Kit受体介导的细胞内信号转导及检测重组人干细胞因子生物学活性提供了有效的细胞模型     

Efficient adeno-associated virus-mediated gene expression in human placenta-derived mesenchymal cells

Mesenchymal cells from various sources are pluripotent and are attractive sources for cell transplantation. In this study, we analyzed recombinant adeno-associated virus (rAAV)-mediated gene expression in human placenta-derived mesenchymal cells (hPDMCs), which reside in placental villi. After transduction of AV-CAG-EGFP, a rAAV expressing enhanced green fluorescence protein (EGFP), hPDMCs showed much higher level of EGFP expression than human umbilical vein endothelial cells or rat aortic smooth muscle cells. The number of EGFP-positive hPDMCs infected by AV-CAG-EGFP alone did not increase significantly by coinfection of adenovirus, which enhanced expression level of the rAAV vector. Moreover, flow cytometric analysis showed discrete positive fraction of EGFP-expressing hPDMCs, which is about 15-20% of the cells infected with AV-CAG-EGFP. Therefore, some cell population in hPDMCs might be highly susceptible to rAAV-mediated gene transduction. In addition, stable EGFP expressions were observed in about 1% of hPDMCs infected with AV-CAG-EGFP at 4 weeks post-infection. Collectively, hPDMCs have characters favorable for rAAV-mediated gene expression.     

造血干细胞移植条件对小鼠造血重建的影响

通过同种基因型小鼠构建造血干细胞移植模型,将预处理的全骨髓单个核细胞或c-Kit⁺造血干细胞移植至致死剂量照射的受体小鼠体内,动态监测移植2～16周后受体小鼠体内供体来源细胞造血重建以及嵌合情况,以期揭示不同群体的供体细胞以及预处理等因素对小鼠造血干细胞移植后造血重建的影响。实验结果显示,移植后早期(2周)全骨髓单个核细胞组髓系比例要高于c-Kit⁺细胞移植组,但全骨髓移植组受体小鼠呈现出较大的移植后不良反应,出现脱毛、食欲不振以及体重减轻的症状。c-Kit⁺细胞移植组在淋系重建上要早于全骨髓移植组,供体细胞的嵌合植入也早于全骨髓移植组,但两组实验组最终均能完成造血重建过程。实验结果表明c-Kit⁺细胞移植组在移植后能够较快地实现供体细胞植入,进而开始造血重建,且c-Kit⁺细胞移植组的不良反应要低于全骨髓移植组。结果说明在整体造血重建效果上c-Kit⁺细胞移植组要优于全骨髓移植组。