Connexin43 gap junctions in normal,regenerating, and cultured mouse bone marrow and in human leukemias: their possible involvement in blood formation.

Communicating channels called gap junctions are thought to play a ubiquitous part in cell growth and development. Based on earlier work, we have recently found functional evidence of their presence in human and mouse bone marrow. In this study we studied the cell-type association of the gap junction channel-forming protein, connexin, in mouse and human bone marrow under different physiological and pathological conditions and tested the pathway of communication in bone marrow cultures. For high-resolution antigen demonstration we took advantage of semi-thin resin sections, antigen retrieval methods, immunofluorescence, and confocal laser scanning microscopy. Connexin43 (Cx43) and its mRNA were consistently expressed in human and rodent marrow. Cx37 was found only in the arteriolar endothelium, but neither Cx32 nor -26 were expressed. In tissue sections, the immunostained junctions appeared as dots, which were digitally measured and counted. Their average size was 0.40 mm in human and 0.49 mm in mice marrow. There were at least twice as many gap junctions in the femoral midshaft of 6-week-old mice (1.75 x 10(5)/mm3) as in those older than 12 weeks (0.89 x 10(5)/mm3). Most Cx43 was associated with collagen III+ endosteal and adventitial stromal cells and with megakaryocytes. Elsewhere, they were few and randomly distributed between all kinds of hematopoietic cells. In the femoral epiphysis of juvenile mice, stromal cell processes full of Cx43 enmeshed three to six layers of hematopoietic cells near the endosteum. The same pattern was seen in the midshaft of regenerating mouse marrow 3 to 5 days after cytotoxic treatment with 5-fluorouracil. Functional tests in cultures showed the transfer of small fluorescent dyes, Lucifer Yellow and 2'',7''-bis-(2-carboxyethyl)-5, 6-carboxyfluorescein, between stromal cells and in rare cases between stromal and hematopoietic cells too. The stromal cells were densely packed with Cx43 and we found aggregates of connexon particles in their membrane replicas. In normocellular human bone marrow, gap junctions were as rare as in adult mouse and similarly distributed, except that they were also on adipocytic membranes. In a few leukemic samples, characterized by an increased stromal/hematopoietic cell ratio, there were two- to fourfold more Cx43 (2.8 x 10(5) to 3.9 x 10(5)/mm3) than in the normal (1.0 x 10(5) to 1.2 x 10(5)/mm3). The cases included a hypoplastic acute lymphoblastic leukemia, an acute myeloid leukemia (French-American-British classification M4-5), a case of myelodysplastic syndrome with elevated number of megakaryocytes, and a CD34+ acute hemoblastosis, probably acute myeloid leukemia (French-American-British classification M7). Taken together, our results indicate that direct cell-cell communication may be involved in hematopoiesis, ie, in developmentally active epiphyseal bone marrow and when there is a demand for progenitors in regeneration. However, gap junctions may not play as important a role in resting adult hematopoiesis and in leukemias.     

Regulation of hematopoiesis by gap junction-mediated intercellular communication

Gap junctions are intercellular channels formed by individual structural units known as connexins (Cx) that allow the intercellular exchange of small molecules between cells. The presence of Cx protein in bone marrow and thymic stromal cells and the demonstration that these cells are functionally coupled have led to the hypothesis that groups of stromal cells in the bone marrow and thymus form a functional syncytium through which their hematopoietic support capacity is coordinated. The validity of this hypothesis was recently tested in a newly developed strain of mice in which the gene encoding Cx43, the principal Cx expressed in hematopoietic tissues, was disrupted. Studies of myelopoiesis and lymphopoiesis in these Cx43-deficient mice revealed that expression of Cx43 in the bone marrow and thymus is critically important during periods of active hematopoiesis, such as during embryogenesis and after recovery from cytoablative treatments. The clinical implications of these observations, as well as issues that remain to be addressed to understand the mechanism(s) by which gap junctions regulate hematopoiesis, are addressed.     

Cx43在造血调控及重建中的作用

目的:采用条件性基因敲除技术构建造血系统间隙连接蛋白43(Cx43)基因敲除(Cx43~(-/-))小鼠模型,并探讨Cx43在维持造血细胞自我更新及功能稳定中的作用。方法:将引进的2对转基因小鼠Cx43 loxP/loxP和Lyz-Cre/+杂交,选取F1雌性子代Cx43 loxP/-_Lyz-Cre/+与雄性Cx43 loxP/loxP合笼回配,提取所获得子代小鼠鼠尾组织基因组DNA,采用PCR方法鉴定小鼠基因型,RT-PCR方法筛选Cx43~(-/-)小鼠,同时分析小鼠不同器官中Cx43基因的表达差异;该类小鼠经5-氟尿嘧啶(5-FU;125 mg/kg)处理,在化疗前及化疗后第5、10和15天经眼球取血分析其血象变化。Cx43~(-/-)及Cx43~(+/+)小鼠予7.5 Gy(~(60)Co-γ)的致死量照射,剂量率1 Gy/min,照射后6 h分别给予事先准备就序的骨髓细胞,每只3×10~6细胞于尾静脉注入,2周后处死小鼠检测造血是否重建:分离股骨切片后,收集骨髓细胞进行细胞表型分析(选用的单抗为CD45R、Gr-1、CD4、 CD8a、TCRαβ、Mac-1、抗sIgM、TER119、Sca-1及CD117);同时进行体外造血细胞集落实验观察造血细胞的体外增殖能力。结果:本研究通过2种转基因小鼠间杂交和回交,成功获得造血系统选择性Cx43基因敲除小鼠;该类小鼠骨髓及外周血细胞无Cx43表达,参与造血的组织,如肝脏和脾脏中Cx43表达也显著下调(P0.01),而心脏和肾脏的Cx43表达则无影响,小鼠成年后外周血象分析并无明显异常,但应急代偿能力下降,经5-FU处理后,其造血功能恢复显著减缓,处理15 d后,Cx43~(+/+)小鼠造血功能已接近正常水平,而Cx43~(-/-)小鼠仍无明显的恢复迹象,血红蛋白、白细胞及血小板仍处低位,2者差别有统计学显著性(P0.01);体外集落试验也证实Cx43~(-/-)小鼠造血干/祖细胞的增殖能力下降,其CFU-GM或CFU-E集落数均明显少于Cx43~(+/+)小鼠(P0.01),但流式细胞术结果显示,Cx43~(-/-)小鼠骨髓中Lin~-/c-Kit~+/Sca-1~+细胞亚群数量与Cx43~(+/+)小鼠相比差异并无统计学显著性;Cx43~(-/-)小鼠在化疗或移植后其骨髓造血功能重建均延迟,且化疗15 d后骨髓切片及涂片均证实其骨髓中造血细胞增生程度明显降低,脂肪组织显著增多,而且T、B细胞发育也有异常。此外,其外周血中CD4~+CD8~+细胞比例比野生型小鼠增多(P0.05),但CD4~+T细胞显著减少(P0.01),尤其是TCRαβ亚群细胞减少最为明显(P0.01)。同样,Cx43~(-/-)小鼠外周血中CD45R~+sIgM~-细胞亚群比例与野生型小鼠相比显著减少(P0.01)。结论:骨髓中Cx43基因表达在造血干/祖细胞发育(尤其是应急状态时)具重要作用,敲除Cx43基因后造血干/祖细胞增殖减缓,造血及免疫重建功能受损。     

One cell one niche: hematopoietic microenvironments constructed by bone marrow stromal cells with fibroblastic and histiocytic features

Hematopoietic microenvironments have been extensively studied, especially focusing on regulation of hematopoietic stem cells (HSCs) in HSC niche following progress of molecular biology in resent years. Based on prior morphological achievements from 1970s, the characteristics of cellular compartments and bone marrow stromal cells (BMSCs) were studied ultrastructurally in human and mice bone marrow in the present study. The samples, human bone marrow granules, were collected from bone marrow aspirations (BMAs) of 20 patients with hematocytopenia and isolated BMSCs were found undesignedly in nucleated cells of BMAs of the patients. Femoral bone marrow samples were collected from 6-week-old three sacrificed mice. Detailed images illustrated maturing hematopoietic cells harbored individually in honeycomb-like microenvironment constituted by BMSCs that shared of fibroblastic and histiocytic characteristics in hematopoietic microenvironments of human and mice bone marrow.     

In Vivo and In Vitro Expression of Connexin 43 in Human Teeth

Gap junctions are composed of transmembrane proteins belonging to the connexin family. These proteins permit the exchange of small regulatory molecules directly between cells for the control of growth, development and differentiation. Although the presence of gap junctions in teeth has been already evidenced, the involved connexins have not yet been identified in human species. Here, we examined the distribution of connexin 43 (Cx43) in embryonic and permanent intact and carious human teeth. During tooth development, Cx43 localized both in epithelial and mesenchymal dental cells, correlated with cytodifferentiation gradients. In adult intact teeth, Cx43 was distributed in odontoblast processes. While Cx43 expression was downregulated in mature intact teeth, Cx43 appeared to be upregulated in odontoblasts facing carious lesions. In cultured pulp cells, Cx43 expression was related to the formation of mineralized nodules. These results indicate that Cx43 expression is developmentally regulated in human dental tissues, and suggest that Cx43 may participate in the processes of dentin formation and pathology.     

Gap junctional coupling with cardiomyocytes is necessary but not sufficient for cardiomyogenic differentiation of cocultured human mesenchymal stem cells

Gap junctional coupling is important for functional integration of transplanted cells with host myocardium. However, the role of gap junctions in cardiomyogenic differentiation of transplanted cells has not been directly investigated. The objective of this work is to study the role of connexin43 (Cx43) in cardiomyogenic differentiation of human mesenchymal stem cells (hMSCs). Knockdown of Cx43 gene expression (Cx43↓) was established in naturally Cx43-rich fetal amniotic membrane (AM) hMSCs, while Cx43 was overexpressed (Cx43↑) in inherently Cx43-poor adult adipose tissue (AT) hMSCs. The hMSCs were exposed to cardiomyogenic stimuli by coincubation with neonatal rat ventricular cardiomyocytes (nrCMCs) for 10 days. Differentiation was assessed by immunostaining and whole-cell current clamping. To establish whether the effects of Cx43 knockdown could be rescued, Cx45 was overexpressed in Cx43↓ fetal AM hMSCs. Ten days after coincubation, not a single Cx43↓ fetal AM hMSC, control adult AT MSC, or Cx43↑ adult AT mesenchymal stem cell (MSC) expressed α-actinin, while control fetal AM hMSCs did (2.2% ± 0.4%, n = 5,000). Moreover, functional cardiomyogenic differentiation, based on action potential recordings, occurred only in control fetal AM hMSCs. Of interest, Cx45 overexpression in Cx43↓ fetal AM hMSCs restored their ability to undergo cardiomyogenesis (1.6% ± 0.4%, n = 2,500) in coculture with nrCMCs. Gap junctional coupling is required for differentiation of fetal AM hMSCs into functional CMCs after coincubation with nrCMCs. Heterocellular gap junctional coupling thus plays an important role in the transfer of cardiomyogenic signals from nrCMCs to fetal hMSCs but is not sufficient to induce cardiomyogenic differentiation in adult AT hMSCs.     

In vivo and in vitro expression of connexin 43 in human teeth

Gap junctions are composed of transmembrane proteins belonging to the connexin family. These proteins permit the exchange of mall regulatory molecules directly between cells for the control of growth, development and differentiation. Although the presence of gap junctions in teeth has been already evidenced, the involved connexins have not yet been identified in human species. Here, we examined the distribution of connexin 43 (Cx43) in embryonic and permanent intact and carious human teeth. During tooth development, Cx43 localized both in epithelial and mesenchymal dental cells, correlated with cytodifferentiation gradients. In adult intact teeth, Cx43 was distributed in odontoblast processes. While Cx43 expression was downregulated in mature intact teeth, Cx43 appeared to be upregulated in odontoblasts facing carious lesions. In cultured pulp cells, Cx43 expression was related to the formation of mineralized nodules. These results indicate that Cx43 expression is developmentally regulated in human dental tissues, and suggest that Cx43 may participate in the processes of dentin formation and pathology.     

Gap junction proteins exhibit early and specific expression during intramembranous bone formation in the developing chick mandible

The spatial and temporal expression of three closely related members of the connexin family of gap junction proteins (connexin42, Cx42; connexin43, Cx43; and connexin45, Cx45) was evaluated during bone formation in the mandibular process of the chick embryo. Mandibles of chick embryos from Hamburger and Hamilton stage 25 (approximately 5 days) through 19 days of development were dissected, serially sectioned and processed for immunocytochemical localization, employing site-specific anti-connexin antibodies. Our data revealed that (1) Cx43 was present throughout mandibular bone formation; (2) although it appeared to be associated with all bone cell types, Cx43 was concentrated in mesenchymal cells during the earliest stages in the osteogenic lineage; (3) most importantly, the localization of Cx43 at sites of bone formation appeared to precede the overt expression of the osteogenic phenotype; (4) by contrast, Cx45 was more restricted, spatially and temporally, in its distribution; (5) Cx42 expression was not detected in osteogenic tissue during mandibular bone formation. From all of the data obtained, Cx45 appeared to be associated with stages of bone formation characterized by the elaboration of matrix and the progressive expression of the differentiated osteogenic phenotype. Cx43 appeared to be associated with condensation of mesenchyme and the earliest stages of osteogenesis. Because of these associations, we propose that connexin expression may be necessary for the initiation of bone formation and the full expression of the osteogenic phenotype.     

Notch信号在脂多糖诱导的骨髓间充质干细胞中的作用

目的:探讨Notch信号对脂多糖(lipopolysaccharide,LPS)诱导的小鼠骨髓间充质干细胞(bone marrow mesenchymal stem cells,BMSCs)增殖及白细胞介素6(interleukin-6,IL-6)和趋化因子CXCL1分泌的影响。方法:全骨髓培养法制备BMSCs;采用q PCR与Western blot实验比较LPS对BMSCs中Notch信号通路配体、受体及靶基因表达的变化;MTT法和活细胞计数检测Notch信号对细胞增殖的影响;并以ELISA法检测Notch信号通路抑制剂DAPT对IL-6和CXCL1分泌的调节作用。结果:经10μg/L、100μg/L和1 mg/L的LPS刺激后,BMSCs增殖和IL-6分泌呈现上升趋势(P0.05或P0.01)。q PCR与Western blot结果显示Notch信号通路受体和配体在BMSCs中均有表达,但LPS对其mRNA与蛋白水平并无明显影响,然而LPS可显著诱导Notch信号靶基因Hes1与Hey1的蛋白表达。Notch信号通路抑制剂DAPT可以降低LPS诱导的BMSCs活力的上升(P0.01),同时对LPS诱导的BMSCs增殖有抑制作用。另外,LPS显著诱导BMSCs中IL-6与CXCL1的分泌,而抑制Notch信号通路可显著抑制LPS所诱导的IL-6与CXCL1的分泌(P0.05)。结论:抑制Notch信号可以抑制LPS诱导的BMSCs增殖,并抑制IL-6与CXCL1的分泌。     

Connexin 37 is dispensable for the control of the renin system and for positioning of renin-producing cells in the kidney

Within the juxtaglomerular apparatus, renin-producing cells and endothelial cells of the afferent arterioles express connexin (Cx)37 and Cx40, which form abundant gap junctions among these cells. Deletion of Cx40 leads to strong hyperreninemia and ectopic localization of renin-producing cells; however, the relevance of Cx37 for the renin system in the kidney has not been investigated. We therefore studied renin expression and renin secretion in kidneys from Cx37-deficient mice, both on normal salt diet and during chronic challenge of the renin system by pretreatment of mice with a low-salt diet in combination with an angiotensin I-converting enzyme inhibitor. This treatment procedure strongly enhances renin gene expression and renin secretion. We found that renal renin mRNA abundance and plasma renin concentration did not differ between wild-type and Cx37?/? mice under normal conditions. The stimulation of renin gene expression and renin secretion by salt depletion was even more pronounced in Cx37?/? as compared to wild-type mice. The regulation of renin secretion from isolated perfused kidneys by perfusion pressure and by angiotensin II was normal in Cx37?/? mice. In addition, the localization of renin-expressing cells was also regular in Cx37?/? kidneys. Finally, the expression pattern of other vascular Cxs such as Cx40, Cx43, and Cx45 was not altered in Cx37?/? kidneys. Our findings suggest that Cx37 is not essential for normal development and function of renin-producing cells. As a consequence, it appears unlikely that Cx40 exerts its important function in renin-producing cells via Cx37/Cx40 heteromeric gap junctions.     

成纤维细胞生长因子2和丹参酮ⅡA在大鼠骨髓间充质干细胞向心肌样细胞分化中的作用

目的 探讨成纤维细胞生长因子2（FGF-2）和丹参酮ⅡA（tanshinoneⅡA）在大鼠骨髓间充质干细胞（BMSCs）向心肌样细胞分化中的作用。 方法 体外分离、培养BMSCs,利用流式细胞术进行鉴定。实验分组：对照组（不加任何诱导剂）、FGF-2组、丹参酮ⅡA组及两者联合诱导组。MTT检测诱导后的活性及增殖情况;Real-time PCR检测早期心肌转录因子GATA-4、Nkx2.5的表达;免疫细胞化学染色法检测缝隙连接蛋白43(Cx43)以及心肌肌钙蛋白Ⅰ（cTnI）的表达;免疫荧光化学染色法检测结蛋白(desmin)、原肌球蛋白（Tm）的表达;Western blotting检测结蛋白、Tm的表达。 结果 各诱导组较对照组增殖明显。与对照组相比,诱导组GATA-4和Nkx2.5基因的表达增强,联合组表达量最高,差异具有统计学意义（P＜0.05）。联合诱导组各标记物Cx43、cTnI、结蛋白、Tm的阳性表达率高于FGF-2及丹参酮ⅡA单独诱导组,差异具有统计学意义（P＜0.05）。Western blotting结果显示,联合诱导组结蛋白、Tm的表达量明显高于其他实验组,差异具有统计学意义（P＜0.05）。透射电子显微镜结果显示,诱导后细胞的细胞核居中,细胞质中可见肌丝、粗面内质网、线粒体和核糖体。 结论 FGF-2和丹参酮ⅡA均能促进BMSCs增殖,诱导BMSCs分化为心肌样细胞,两者联合诱导的效果较其他组更佳。     

Identification of connexin36 in gap junctions between neurons in rodent locus coeruleus

Locus coeruleus neurons are strongly coupled during early postnatal development, and it has been proposed that these neurons are linked by extraordinarily abundant gap junctions consisting of connexin32 (Cx32) and connexin26 (Cx26), and that those same connexins abundantly link neurons to astrocytes. Based on the controversial nature of those claims, immunofluorescence imaging and freeze-fracture replica immunogold labeling were used to re-investigate the abundance and connexin composition of neuronal and glial gap junctions in developing and adult rat and mouse locus coeruleus. In early postnatal development, connexin36 (Cx36) and connexin43 (Cx43) immunofluorescent puncta were densely distributed in the locus coeruleus, whereas Cx32 and Cx26 were not detected. By freeze-fracture replica immunogold labeling, Cx36 was found in ultrastructurally-defined neuronal gap junctions, whereas Cx32 and Cx26 were not detected in neurons and only rarely detected in glia. In 28-day postnatal (adult) rat locus coeruleus, immunofluorescence labeling for Cx26 was always co-localized with the glial gap junction marker Cx43; Cx32 was associated with the oligodendrocyte marker 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase); and Cx36 was never co-localized with Cx26, Cx32 or Cx43. Ultrastructurally, Cx36 was localized to gap junctions between neurons, whereas Cx32 was detected only in oligodendrocyte gap junctions; and Cx26 was found only rarely in astrocyte junctions but abundantly in pia mater. Thus, in developing and adult locus coeruleus, neuronal gap junctions contain Cx36 but do not contain detectable Cx32 or Cx26, suggesting that the locus coeruleus has the same cell-type specificity of connexin expression as observed ultrastructurally in other regions of the CNS. Moreover, in both developing and adult locus coeruleus, no evidence was found for gap junctions or connexins linking neurons with astrocytes or oligodendrocytes, indicating that neurons in this nucleus are not linked to the pan-glial syncytium by Cx32- or Cx26-containing gap junctions or by abundant free connexons composed of those connexins.     

SDF-1/CXCL12 enhances in vitro replating capacity of murine and human multipotential and macrophage progenitor cells

Hematopoietic progenitor cells (HPCs) manifest a limited self-renewal capacity, as determined by a surrogate assay involving replating capacity of single colonies in vitro with generation of secondary colonies. Stromal cell-derived factor-1 (SDF-1/CXCL12), has been implicated in regulation of hematopoiesis through its modulation of hematopoietic stem cell (HSC) and HPC migration, homing, mobilization, and survival. We used bone marrow cells from SDF-1/CXCL12 transgenic and littermate control mice, and culture of normal mouse bone marrow and human cord blood cells plated in the presence or absence of recombinant SDF-1/CXCL12 to evaluate a role for SDF-1/CXCL12 in the replating capability in vitro of multipotential [colony-forming units (CFU)-GEMM] and macrophage (CFU-M) progenitor cells. Competitive repopulating capacity of mouse HSCs was assessed in lethally irradiated mice. Transgenic or exogenous SDF-1/CXCL12 significantly enhanced numbers of secondary colonies formed from primary CFU-GEMM or CFU-M colonies. In the limited setting of our in vivo studies, the SDF-1/CXCL12 transgene did not influence HSC competitive repopulation. However, the results suggest that SDF-1/CXCL12 enhances in vitro replating/self-renewal of HPCs, which may contribute to myelopoiesis in vivo. This information may be of value to ex vivo expansion of HPCs/HSCs.     

Connexin expression and functional analysis of gap junctional communication in mouse embryonic stem cells

Gap junctional intercellular communication (GJIC) has been suggested to be necessary for cellular proliferation and differentiation. We wanted to investigate the function of GJIC in mouse embryonic stem (ES) cells using pharmacological inhibitors or a genetic approach to inhibit the expression of connexins, that is, the subunit proteins of gap junction channels. For this purpose, we have analyzed all known connexin genes in mouse ES cells but found only three of them, Cx31, Cx43, and Cx45, to be expressed as proteins. We have demonstrated by coimmunoprecipitation that Cx31 and Cx43, as well as Cx43 and Cx45, probably form heteromeric gap junction channels, whereas Cx31 and Cx45 do not. The pharmacological inhibitors reduced GJIC between ES cells to approximately 3% and initiated apoptosis, suggesting an antiapoptotic effect of GJIC. In contrast to these results, reduction of GJIC to approximately 5% by decreased expression of Cx31 or Cx45 via RNA interference in homozygous Cx43-deficient ES cells did not lead to apoptosis. Additional studies suggested that apoptotic death of ES cells and adult stem cells reported in the literature is likely due to a cytotoxic side effect of the inhibitors and not due to a decrease of GJIC. Using the connexin expression pattern in mouse ES cells, as determined in this study, multiple connexin-deficient ES cells can now be genetically engineered in which the level of GJIC is further decreased, to clarify whether the differentiation of ES cells is qualitatively or quantitatively compromised.     

当归补血汤载药血清干预后骨髓基质细胞中粒细胞集落刺激因子和白细胞介素3的分泌

背景：实验表明,当归补血汤的有效成分多糖对造血干细胞和造血祖细胞的增殖分化存在显著的促进作用,对造血微环境具有重要的调控作用。 目的：观察当归补血汤载药血清干预后小鼠骨髓基质细胞中粒细胞集落刺激因子和白细胞介素3的分泌状况。 方法：分离骨髓基质细胞,于96孔板培养,在相差显微镜下观察细胞形态和生长状况;将细胞分4组,加含有不同剂量的当归补血汤载药血清进行干预,采用MTT法检测各组细胞的增殖活性,ELISA法检测粒细胞集落刺激因子和白细胞介素3的表达情况。 结果与结论：当归补血汤载药血清可明显促进骨髓基质细胞的增殖,促进骨髓基质细胞分泌粒细胞集落刺激因子和白细胞介素3,呈剂量依赖性,含等效剂量载药血清组促增殖作用和促分泌作用优于其他各组,浓度过高可减弱细胞的增殖分泌效应。