肝脏发育过程中转录因子的调控

肝脏的发育经历了一系列内胚层和中胚层之间复杂的相互作用,其中转录因子扮演着重要角色。肝脏发育主要可分为两个阶段,首先是前肠内胚层感受心脏中胚层的信号而建立响应态(competence),肝向特化基因逐渐表达并形成新生肝芽。此阶段受到转录调控网络的控制,其中FoxA家族,锌指结构转录因子GATA4/6,同源结构域因子Hhex、Onecut1、Onecut2和Prox1发挥了重要的作用。其次是肝脏内细胞群体如肝细胞和胆管细胞的分化成熟阶段。这个过程的完成主要受肝富集转录因子HNF1α、HNF4、HNF6和C/EBPα的调控。本文概述了肝脏发育中复杂的转录调控网络及其发挥的作用。     

Characterization of cells in the developing human liver

Human hepatic progenitor cells (HPCs) have been shown to co-express the hematopoietic stem cell (HSC) markers, CD117 and CD34. These cells differentiate not only into hepatocytes and cholangiocytes but also into pancreatic ductal and acinar cells under certain conditions. The fetal liver (FL) is rich in precursor/stem cells; however, little is known about (i) the markers expressed by liver cells during fetal development and (ii) whether an equivalent to the adult liver stem-like progenitors exists in the FL. Here, (i) FL tissue obtained from human 5-18-week-old fetuses were evaluated by means of flow cytometry, immunocyto-, and histochemistry for the emergence of cells expressing and co-expressing known hematopoietic, hepatic, and pancreatic cell markers, and (ii) isolated putative HPCs were phenotypically and molecularly characterized. We report that (i) red blood and endothelial cell precursors were most abundant in early gestation. Cells expressing HSC and pancreatic markers were found in the first trimester, while cells expressing hepatic markers appeared in the second trimester. Very few committed cells were present in FLs obtained early in the first trimester. In addition, cells expressing pancreatic markers co-expressed the HSC marker CD117. (ii) Isolated CD117+/CD34+/CD90- cells in vitro expressed both the genes and proteins for the hepatic markers such as albumin, alpha feto protein (AFP), alpha1-antitrypsin, and cytokeratin 19 (CK19). Our study suggests that hepatoblast and ductal plate/bile duct development mainly occurs during the second trimester. FLs in gestation weeks 5-9 had the highest numbers of precursor cells and the least committed cells. Cells that differentiate into Alb+ or CK19+ can be isolated from early FLs and may be appropriate progenitors for establishing novel systems to investigate basic mechanisms for cell therapy.     

Localization of glutamate in the human retina during early prenatal development

In this study we have localized glutamate (GLU) in fetal (14–25 weeks gestation, Wg) human retinas by immunohistochemistry. At 14 Wg, GLU-immunoreactivity (IR) was localized only in the central part of retina, showing a prominently labelled nerve fiber layero A few ganglion cells and displaced amacrine cells were very weakly labelled. At 17 Wg, GLU was localized conspicuously in many ganglion cells, displaced amacrine cells, some amacrine cells and the prospective photoreceptor cell bodies in the neuroepithelial layero With progressive development at 20 and 25 Wg, the IR for GLU was found additionally in the Müller cell endfeet, some bipolar cells as well as in the horizontal cells that were aligned in a row along the outer border of the inner nuclear layer of the central retinao The photoreceptor cell bodies in the outer nuclear layer were also prominently immunopositive for GLU. The developmental distribution of GLU in the human retina tends to indicate that it plays an important role in the differentiation and maturation of retinal neurons.     

胚胎干细胞来源的拟胚体分化早期血管平滑肌标志物的表达时相

目的:研究胚胎血管发育早期SMα-actin、SM22α、myocardin、平滑肌肌球蛋白重链(SMMHC)的表达规律,并初步探讨在此阶段血小板源性生长因子-BB(PDGF-BB)对血管平滑肌细胞(VSMCs)分化的影响。方法:采用转染平滑肌特异性蛋白SM22α启动子控制下表达增强型绿色荧光蛋白(GFP)报告基因载体的胚胎干细胞制备拟胚体(EBs),用免疫荧光染色、RT-PCR、Western blot分析SMα-actin、SM22α、myocardin、SMMHC的表达时相;然后分别用0μmol/L(对照组)、10μmol/L、50μmol/L AG1296(血小板源性生长因子受体抑制剂)处理EBs,观察三组SMα-actin、SM22α、myocardin、SMMHC在基因及蛋白水平上的表达变化。结果:胚胎血管发育早期SMα-actin、myocardin、SM22α、SMMHC分别在EBs第0(胚胎干细胞)、8、11、13d开始有表达。AG1296三种浓度处理后SMα-actin、myocardin、SM22α、SMMHC蛋白表达及myocardin、SM22α和SMMHC mRNA表达均无明显差异。结论:EBs发育过程中存在着自发的VSMCs分化,SMα-actin表达最早,依次为myocardin、SM22α、SMMHC;PDGF-BB对EBs分化早期VSMCs标志物表达的调控可能不是必要的。     

Centrosome and Golgi complex during differentiation of hepatocytes in early postnatal development of mice

The structure and functional activity of the centrosome was analyzed in hepatocytes of 5-day old mice, as well as the lengths of Golgi complex cisternae. In the early postnatal development of mice, the liver was represented by two types of hepatocytes: in the first type hepatocytes, the centrosome was active as a microtubule organizing center, while in the second type hepatocytes, it was inactive. It was proposed that during ontogenesis the centrosome is inactivated as a microtubule organizing center and activated as an organizing center of intermediate filaments characteristic for differentiated hepatocytes of adult liver. Morphometry of the Golgi complex has shown that Golgi cisternae in the cell center area of early postnatal hepatocytes were longer than in the adult hepatocytes and comparable to those in G ₁-phase hepatocytes of regenerating liver. The possibility of relations between the differences in the Golgi complex morphology and ontogenetic changes in the functional activity of centrosomes is discussed.     

Ghrelin receptors in human gastrointestinal tract during prenatal and early postnatal development

The aim of our study was to investigate the appearance, density and distribution of ghrelin cells and GHS-R1a and GHS-R1b in the human stomach and duodenum during prenatal and early postnatal development. We examined chromogranin-A and ghrelin cells in duodenum, and GHS-R1a and GHS-R1b expression in stomach and duodenum by immunohistochemistry in embryos, fetuses, and infants. Chromogranin-A and ghrelin cells were identified in the duodenum at weeks 10 and 11 of gestation. Ghrelin cells were detected individually or clustered within the base of duodenal crypts and villi during the first trimester, while they were presented separately within the basal and apical parts of crypts and villi during the second and third trimesters. Ghrelin cells were the most numerous during the first (∼11%) and third (∼10%) trimesters of gestation development. GHS-R1a and GHS-R1b were detected at 11 and 16 weeks of gestation, showed the highest level of expression in Brunner's gland and in lower parts of duodenal crypts and villi during the second trimester in antrum, and during the third trimester in corpus and duodenum. Our findings demonstrated for the first time abundant duodenal expression of ghrelin cells and ghrelin receptors during human prenatal development indicating a role of ghrelin in the regulation of growth and differentiation of human gastrointestinal tract.     

An immortalized human liver endothelial sinusoidal cell line for the study of the pathobiology of the liver endothelium

Background

The endothelium lines blood and lymph vessels and protects underlying tissues against external agents such as viruses, bacteria and parasites. Yet, microbes and particularly viruses have developed sophisticated ways to bypass the endothelium in order to gain access to inner organs. De novo infection of the liver parenchyma by many viruses and notably hepatitis viruses, is thought to occur through recruitment of virions on the sinusoidal endothelial surface and subsequent transfer to the epithelium. Furthermore, the liver endothelium undergoes profound changes with age and in inflammation or infection. However, primary human liver sinusoidal endothelial cells (LSECs) are difficult to obtain due to scarcity of liver resections. Relevant derived cell lines are needed in order to analyze in a standardized fashion the transfer of pathogens across the liver endothelium. By lentiviral transduction with hTERT only, we have immortalized human LSECs isolated from a hereditary hemorrhagic telangiectasia (HHT) patient and established the non-transformed cell line TRP3. TRP3 express mesenchymal, endothelial and liver sinusoidal markers. Functional assessment of TRP3 cells demonstrated a high capacity of endocytosis, tube formation and reactivity to immune stimulation. However, TRP3 displayed few fenestrae and expressed C-type lectins intracellularly. All these findings were confirmed in the original primary LSECs from which TRP3 were derived suggesting that these features were already present in the liver donor. We consider TRP3 as a model to investigate the functionality of the liver endothelium in hepatic inflammation in infection.     

Expression of p107 and p130 during human adipose-derived stem cell adipogenesis

Within the first 24 h of hormonally stimulated adipocyte differentiation, murine 3T3-L1 preadipocytes undergo a mitotic expansion phase prior to terminal differentiation. During this time, the cell cycle regulatory proteins, p130 and p107 undergo dramatic differential expression and the transient increase in expression of p107 appears to be required for terminal differentiation. Recently, human adipose-derived human stem cells (hASC) of mesenchymal origin have been used as a model of human adipocyte differentiation and we sought to determine if differentiating hASC undergo clonal expansion and if the regulated expression of p130/p107 was similar to that observed during 3T3-L1 adipogenesis. Results indicate that differentiating hASC, unlike 3T3-L1 cells do not undergo clonal expansion and p130 expression gradually diminishes across differentiation. However, p107 expression is transiently increased during hASC differentiation in a manner analogous to 3T3-L1 cells suggesting a similar role for p107 in terminal differentiation in human adipocytes.     

Liver transplantation of hepatic stem cells: potential use for treating liver diseases

Hepatic stem cells are an alternative means for repopulating the liver after various injuries instead of liver transplantation. The first step before use is to select stem cells that will be good candidates. This review discusses the different candidates including fetal progenitor bipotential hepatic stem cells; adult hepatocytes, which can be considered as unipotential committed stem cells; and oval cells, a type of nonparenchymal pluripotential hepatic stem cell. The advantages and disadvantages of each type of cell are discussed and several other possible alternatives, such as the use of hematopoietic stem cells are analyzed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Expression of the RSK2 gene during early human development

The 90 kDa ribosomal S6 serine/threonine kinase 2 gene (RSK2, U08316) has been recently identified as a disease-causing gene in an X-linked disorder, the Coffin-Lowry Syndrome (MIM 303600) characterized by severe mental retardation, facial dysmorphisms and progressive skeletal malformations. To investigate its possible role in cerebral cortex development, we performed RNA in situ hybridization at three stages of human development: day 32 (Carnegie 15), 9 weeks (Carnegie 23) and 13 weeks. RSK2 expression is detected in the embryonic anterior and posterior telencephalon (hippocampus anlagen), mesencephalon, rhombencephalon and cerebellum. RSK2 gene expression is also observed in dorsal root ganglia, cranial nerve ganglia, and sensory epithelium of the inner ear, liver, lung and jaw anlagen. This pattern of expression may be involved in cognitive impairment and facial dysmorphisms found in Coffin-Lowry Syndrome.     

Expression of the SMADIP1 gene during early human development

There are four members of the platelet-derived growth factor (PDGF) family; PDGF-A, PDGF-B, PDGF-C and PDGF-D. Their biological effects are mediated via two tyrosine kinase receptors, PDGFR-alpha and PDGFR-beta, and PDGF-mediated signaling is critical for development of many organ systems. Analysis in adult tissues showed that PDGF-C was mainly expressed in kidney, testis, liver, heart and brain. During development, PDGF-C expression was widespread and dynamic, and found in somites and their derivatives, in kidney, lung, brain, and in several other tissues, particularly at sites of developing epidermal openings. PDGF-C may therefore have unique functions during tissue development and maintenance.     

The roles of ERAS during cell lineage specification of mouse early embryonic development

Eras encodes a Ras-like GTPase protein that was originally identified as an embryonic stem cell-specific Ras. ERAS has been known to be required for the growth of embryonic stem cells and stimulates somatic cell reprogramming, suggesting its roles on mouse early embryonic development. We now report a dynamic expression pattern of Eras during mouse peri-implantation development: its expression increases at the blastocyst stage, and specifically decreases in E7.5 mesoderm. In accordance with its expression pattern, the increased expression of Eras promotes cell proliferation through controlling AKT activation and the commitment from ground to primed state through ERK activation in mouse embryonic stem cells; and the reduced expression of Eras facilitates primitive streak and mesoderm formation through AKT inhibition during gastrulation. The expression of Eras is finely regulated to match its roles in mouse early embryonic development during which Eras expression is negatively regulated by the β-catenin pathway. Thus, beyond its well-known role on cell proliferation, ERAS may also play important roles in cell lineage specification during mouse early embryonic development.     

Immunohistochemical profile of CD markers in experimental neural tube defect

ABSTRACT

Neural tube defects (NTDs) are the second most common birth defects worldwide. Stem cells play a critical role in the mechanisms underlying NTDs. We established an experimental NTD model in rats using retinoic acid (RA). We used mesenchymal and hemopoietic stem cell markers to determine their distribution in the mesenchyme in and around the neuroepithelium during the embryonic and fetal periods in both cranial and caudal regions. Adult female rats were given RA on days 5 and 10 of gestation and olive oil was administered to the control group. On days 10.5 and 15.5, embryos in the experimental and control groups were removed from the uterus. Embryos were embedded in paraffin and serial sections of the cranial and caudal neural tube were examined. We found severe cranial and caudal defects including axial rotation in the experimental groups using histochemistry. We used CD44, CD56, CD73, CD90, CD105, CD271 antibodies as mesenchymal stem cell markers and CD14, CD45 as hemopoietic stem cell markers. More CD44, CD56, CD90, CD105 and CD14 were detected during the embryonic period than the fetal period. CD73 was more frequent during the fetal period, whereas CD271 and CD45 were not significantly different. When CD44, CD56, CD73, CD90, CD105, CD271 immunostaining was found, NTDs were decreased early and increased later. We found no significant difference between CD14 and CD45. Formation of NTDs was due to deterioration of the of the neuroepithelial and surrounding stem cells. One reason for the formation of NTDs is that stem cells may develop defective cell-cell or cell-matrix interactions.     

Lineage tracing reveals conversion of liver sinusoidal endothelial cells into hepatocytes

Although liver sinusoidal endothelial cells (LSECs) have long been known to contribute to liver regeneration following injury, the exact role of these cells in liver regeneration remains poorly understood. In this work, we performed lineage tracing of LSECs in mice carrying Tie2‐Cre or VE‐cadherin‐Cre constructs to facilitate fate‐mapping of LSECs in liver regeneration. Some YFP‐positive LSECs were observed to convert into hepatocytes following a two‐thirds partial hepatectomy (PH). Furthermore, human umbilical vein endothelial cells (HUVECs) could be triggered to convert into cells that closely resembled hepatocytes when cultured with serum from mice that underwent an extended PH. These findings suggest that mature non‐hepatocyte LSECs play an essential role in mammalian liver regeneration by converting to hepatocytes. The conversion of LSECs to hepatocyte‐like (iHep) cells may provide a new approach to tissue engineering.     

Monoclonal antibodies directed against rat liver epithelial cell lines selectively recognize bile duct epithelium in livers of adult rats

Monoclonal antibodies directed against antigens on rat liver epithelial cell lines were prepared. Three antibodies, 4C3, 19C6, and 3C2, recognized surface antigens present (although in different quantities) on eight epithelial cell lines tested, irrespective of whether they were normal or transformed. For MAb 3C2, the primary antigen common to all but one cell line showed a Mr of 135 kD. In paraffin sections of liver tissue, two antibodies, 40 and 19C6, reacted exclusively with bile duct epithelium, whereas the MAb 3C2 additionally reacted with sinusoidal endothelium and the endothelium of the portal venules. In sections of livers from rats exposed to diethylnitrosamine, the MAb 19C6 selectively stained bile duct-like structures in cholangiomas, while other preneoplastic and neoplastic lesions were not stained. These results demonstrate that the monoclonal antibodies obtained may prove useful for investigating cell lineages related to propagable liver epithelial cell lines and suggest that these cells may be derived from terminal bile ductular cells.Abbreviations ABTS2 2,2azinobis(3-ethylbenzthiazolinesulfonic) acid - ARL adult rat liver - DEN diethylnitrosamine - FCS fetal calf serum - MAb monoclonal antibody - PAP peroxidase antiperoxidase     

Long-term liver cell cultures in bioreactors and possible application for liver support

Hybrid artificial liver systems are being developed as a temporary extracorporeal liver support therapy. A short overview is given which emphasizes the development of hepatocyte culture models for bioreactors, subsequent in vitro studies, animal studies and the clinical application of hybrid liver support systems.An own bioreactor construction has been designed for the utilization of hepatocytes and sinusoidal endothelial cells. The reactor is based on capillaries for hepatocyte aggregate immobilization, coated with biomatrix. Four separate capillary membrane systems, each permitting a different function, are woven in order to create a three-dimensional network. Cells are perfused via independent capillary membrane compartments. Decentralized oxygen supply and carbon dioxide removal with low gradients is possible. There is a decentralized co-culture compartment for nonparenchymal liver cells. The use of identical parallel units to supply a few hepatocytes facilitates scale-up.     

Secretion of acetylcholinesterase by a mouse hepatocyte X rat liver cell hybrid culture

Summary A hybrid cell line (E-2) that secretes the enzyme acetylcholinesterase (AChE) has been prepared. The E-2 cell was the product of a fusion between primary mouse hepatocytes and a chemically transformed rat liver cell line (FRL), neither of which expresses AChE activity. The enzyme was determined to be AChE on the basis of its susceptibility to inhibition by BW284c51 but not by iso-OMPA, as well as its substrate specificity. Although the secreted enzyme was salt soluble and its activity not modified by the addition of the nonionic detergent, Triton X-100, the activity of the cellular enzyme (derived from homogenates of E-2 cells) was greatly enhanced in the presence of the detergent. This work was supported by funds from the Chemical Research and Development Center, Aberdeen Proving Ground, MD. The opinions and assertions are the private ones of the authors and are not to be construed as official. These experiments were conducted according to the principles set forth in the “Guide for the Care and Use of Experimental Animals,” DHEW Publ. No. (NIH) 78-23.     

Immunocytochemical properties of stellate ganglion neurons during early postnatal development

Neurotransmitter features in sympathetic neurons are subject to change during development. To better understand the neuroplasticity of sympathetic neurons during early postnatal ontogenesis, this study was set up to immunocytochemically investigate the development of the catecholaminergic, cholinergic, and peptidergic phenotypes in the stellate ganglion of mice and rats. The present study was performed on Wistar rats and Swiss mice of different ages (newborn, 10-day-old, 20-day-old, 30-day-old, and 60-day-old). To this end, double labeling for tyrosine hydroxylase (TH), choline acetyltransferase (ChAT), vasoactive intestinal (poly)peptide (VIP), neuropeptide Y (NPY), galanin (GAL), and somatostatin (SOM) was applied. The results obtained indicate that the majority of the neurons in the stellate ganglion of both species were TH-positive from birth onward and that a large part of these neurons also contained NPY. The percentage of neurons containing TH and NPY invariably increased with age up to 60 days postnatally. A smaller portion of the stellate ganglion neurons contained other types of neuropeptides and showed a distinct chronological pattern. The proportion of VIP- and ChAT-positive neurons was maximal in 10-day-old animals and then decreased up to 60 days of age, whereas the number of SOM-positive cells in rats significantly decreased from birth onward. In newborn rats, VIP-, ChAT- and SOM-positive neurons were largely TH-positive, while their proportions decreased in 10-day-old and older rats. Accordingly, the largest part of VIP-positive neurons also expressed SOM immunoreactivity at birth, after which the number of neurons containing both peptides diminished. The VIP- and SOM-positive cells did not contain NPY in any of the age groups studied. In rats up to 10 days of life, GAL-immunoreactive (-IR) neurons were scarce, after which their number increased to reach a maximal value in 30-day-old animals and then declined again. The SOM-reactive cells had the smallest size in all rats, while the largest neurons were those containing ChAT. In the mouse stellate ganglion, VIP- and ChAT-IR neurons were larger in comparison to NPY- and TH-IR cells. Our study further revealed some species differences: compared to mice the proportion of neurons containing TH and NPY was higher in rats at all ages under study. Furthermore, no GAL-immunostained neurons were found in mice and the number of SOM-positive cells in mice was limited compared to that observed in rats. In conclusion, the development of neurotransmitter composition is complete in rats and mice by their second month of life. At this age, the percentages of immunopositive cells have become similar to those reported in adult animals.     

间充质干细胞的来源及其对肝脏损伤及修复的研究进展

全球终末期肝病、肝衰竭的发病率和死亡率逐年升高,且目前肝移植是唯一疗效确切的治疗选择,但是,肝移植的使用受到肝源供体严重不足,长期存活率低,医疗费用昂贵等缺点使得原位肝移植的应用受限,绝大多数患者无法受益。为了克服肝脏器官短缺,干细胞替代治疗策略逐渐成为另一个肝病治疗的重要选择,干细胞治疗,特别是间充质干细胞（MSC）提供了一个新的肝病治疗选择。MSC是一群贴壁生长的成纤维细胞样细胞,由于MSC能够分化为多种类型的细胞,能够产生多种的细胞因子和生长因子,具有造血支持和免疫调节和抗炎功能,MSC被认为在再生医学领域具有重大的科学和实用价值。另外,由于MSC应用于治疗实验性肝损伤能明显提高动物存活率,明显改善肝功能。此外,一些临床前研究和临床研究也表明MSC对肝损伤性疾病具有显著地疗效。因此MSC在损伤性和退行性肝脏疾病的治疗具有广阔的应用前景。本文综述了MSC在肝损伤疾病治疗应用的进展,并对MSC在肝病治疗中的应用前景进行了展望。