Cell types in rat liver cultures: their identification and isolation

This paper reviews the various types of cells in the liver in vivo and in hepatic cellular suspensions produced by perfusion of the liver with collagenase solutions. Methods to identify and isolate different types of hepatic cells are discussed. In vitro culture of various types of liver cells is reviewed and the identification of cultured cells is considered.     

Regenerative therapy for neuronal diseases with transplantation of somatic stem cells

Pluripotent stem cells, which are capable of differentiating in various species of cells, are hoped to be donor cells in transplantation in regenerative medicine. Embryonic stem (ES) cells and induced pluripotent stem cells have the potential to differentiate in approximately all species of cells. However, the proliferating ability of these cells is high and the cancer formation ability is also recognized. In addition, ethical problems exist in using ES cells. Somatic stem cells with the ability to differentiate in various species of cells have been used as donor cells for neuronal diseases, such as amyotrophic lateral sclerosis, spinal cord injury, Alzheimer disease, cerebral infarction and congenital neuronal diseases. Human mesenchymal stem cells derived from bone marrow, adipose tissue, dermal tissue, umbilical cord blood and placenta are usually used for intractable neuronal diseases as somatic stem cells, while neural progenitor/stem cells and retinal progenitor/stem cells are used for a few congenital neuronal diseases and retinal degenerative disease, respectively. However, non-treated somatic stem cells seldom differentiate to neural cells in recipient neural tissue. Therefore, the contribution to neuronal regeneration using non-treated somatic stem cells has been poor and various differential trials, such as the addition of neurotrophic factors, gene transfer, peptide transfer for neuronal differentiation of somatic stem cells, have been performed. Here, the recent progress of regenerative therapies using various somatic stem cells is described.     

Spatial-temporal organization of the deep cortex of the lymph node

In various areas of the deep cortex: central and peripheral parts, as well as T-territory (adjoining the fundus of the germinative center) various cells (small and middle lymphocytes, immunoblasts, plasmoblasts, immature and mature plasma cells and mitotically dividing cells) have been counted. The population density of various immunocompetent cells differs significantly in various areas of the deep cortex. Immunoblasts predominate in the center, cells of the plasmic line--in the periphery of the deep cortex and in the T-territory. Fluctuations of the population density are time-dependent. Spectral composition and parameters of rhythmicity for each cellular type and general course of the process are estimated. In the spectral composition ultradian components predominate. The circadian components are more specific for T- than for B-dependent zone. For immunoblasts in all the zones a common period of fluctuations, nearly 10 h, is revealed, and for the cells of the plasmic line 7 hours' period is common; therefore, it is possible to suppose presence of synchronizing pace-makers of the rhythm for T-lymphocytes, on the one hand, and for antibody-forming cells, on the other hand. Spectral composition of rhythmicity of the cells in the T-territory and in other part of the deep cortex has a number of similar components, that demonstrates functional unity of these zones. A higher part of the cells of the plasmic line in the T-territory and in the periphery of the deep cortex is, perhaps, connected with their migration along these areas towards medullar cords. The general process is of a complex character, rises and drops are registered at various time of the day.     

Is exercise a senolytic medicine? A systematic review

Cellular senescence, a state of irreversible growth arrest triggered by various stressors, engages in a category of pathological processes, whereby senescent cells accumulate in mitotic tissues. Senolytics as novel medicine against aging and various diseases through the elimination of senescent cells has emerged rapidly in recent years. Exercise is a potent anti‐aging and anti‐chronic disease medicine, which has shown the capacity to lower the markers of cellular senescence over the past decade. However, whether exercise is a senolytic medicine for aging and various diseases remains unclear. Here, we have conducted a systematic review of the published literature studying the senolytic effects of exercise or physical activity on senescent cells under various states in both human and animal models. Exercise can reduce the markers of senescent cells in healthy humans, while it lowered the markers of senescent cells in obese but not healthy animals. The discrepancy between human and animal studies may be due to the relatively small volume of research and the variations in markers of senescent cells, types of cells/tissues, and health conditions. These findings suggest that exercise has senolytic properties under certain conditions, which warrant further investigations.     

Autophagy in stem cells

Autophagy is a highly conserved cellular process by which cytoplasmic components are sequestered in autophagosomes and delivered to lysosomes for degradation. As a major intracellular degradation and recycling pathway, autophagy is crucial for maintaining cellular homeostasis as well as remodeling during normal development, and dysfunctions in autophagy have been associated with a variety of pathologies including cancer, inflammatory bowel disease and neurodegenerative disease. Stem cells are unique in their ability to self-renew and differentiate into various cells in the body, which are important in development, tissue renewal and a range of disease processes. Therefore, it is predicted that autophagy would be crucial for the quality control mechanisms and maintenance of cellular homeostasis in various stem cells given their relatively long life in the organisms. In contrast to the extensive body of knowledge available for somatic cells, the role of autophagy in the maintenance and function of stem cells is only beginning to be revealed as a result of recent studies. Here we provide a comprehensive review of the current understanding of the mechanisms and regulation of autophagy in embryonic stem cells, several tissue stem cells (particularly hematopoietic stem cells), as well as a number of cancer stem cells. We discuss how recent studies of different knockout mice models have defined the roles of various autophagy genes and related pathways in the regulation of the maintenance, expansion and differentiation of various stem cells. We also highlight the many unanswered questions that will help to drive further research at the intersection of autophagy and stem cell biology in the near future.     

Human dental pulp stem cells: Applications in future regenerative medicine

Stem cells are pluripotent cells, having a property of differentiating into various types of cells of human body. Several studies have developed mesenchymal stem cells (MSCs) from various human tissues, peripheral blood and body fluids. These cells are then characterized by cellular and molecular markers to understand their specific phenotypes. Dental pulp stem cells (DPSCs) are having a MSCs phenotype and they are differentiated into neuron, cardiomyocytes, chondrocytes, osteoblasts, liver cells and β cells of islet of pancreas. Thus, DPSCs have shown great potentiality to use in regenerative medicine for treatment of various human diseases including dental related problems. These cells can also be developed into induced pluripotent stem cells by incorporation of pluripotency markers and use for regenerative therapies of various diseases. The DPSCs are derived from various dental tissues such as human exfoliated deciduous teeth, apical papilla, periodontal ligament and dental follicle tissue. This review will overview the information about isolation, cellular and molecular characterization and differentiation of DPSCs into various types of human cells and thus these cells have important applications in regenerative therapies for various diseases. This review will be most useful for postgraduate dental students as well as scientists working in the field of oral pathology and oral medicine.     

The number of cells and the cell proliferation in intima of various human arteries

Increased cell proliferation at the early stages of an atherosclerotic lesion is considered an important stage of development of this pathology, but the degree of the proliferation at various stages of formation of atherosclerotic plaque in various human large arteries so far has been studied insufficiently. In the present work, we studied the thickness of intima and proliferation of the newly “infiltrated” hematogenic and resident cells in atherosclerotic lesion of carotid and coronary arteries; a comparison is also made with similar results obtained on the aorta and presented in our earlier publications. Analysis of thickness of intima and of proliferation in normal intima and at various stages of atherosclerotic lesion (initial stages, lipid strips, lipofibrous plaques, fibrous plaques) showed that, in spite of similar tendencies toward changing the level of infiltration of hematogenic cells and proliferation in various types of arteries, there exist significant quantitative differences between various types of arteries. Thus, it is found that hematogenic cells in lipofibrous plaques of coronary and carotid arteries account for one-third and almost half of the total cell population, respectively, whereas the atherosclerosis-lesioned sites of the aorta, as we showed earlier, contain no more than 15% of hematogenic cells. This allows one to think that the contribution of hemopoietic cells to development of atherosclerosis in carotid and coronary arteries is greater than in the aorta. In spite of differences in the number of the hemopoietic cells accumulating in intima, an analogous bell-shaped dependence of the number of cells on the type of lesion (in the sequence normal intima-initial stages of pathology-lipid strips-lipofibrous plaques-fibrous plaques) was shown for coronary and carotid arteries. Visualization of proliferating (PCNA-positive) cells in atherosclerosed and normal (unchanged) zones of coronary and carotid arteries revealed a similar picture. The maximum number of PCNA-positive resident cells was found in lipofibrous plaques. Changes of the total number of cells were accompanied by a change in the number of proliferating resident and proliferating hematogenic cells.     

家蚕血液对BmE-SWU1细胞凋亡的抑制作用

以家蚕胚胎细胞系BmE-SWU1细胞为体外模型,用不同浓度的放线菌素D处理家蚕BmE-SWU1细胞进行家蚕细胞凋亡研究.结果表明:放线菌素D诱导家蚕细胞凋亡的作用呈时间、剂量依赖性.分别用浓度为0、50、100和200 ng/ml的放线菌素D处理BmE-SWU1细胞12 h后,凋亡峰所占比例分别为1.82%、1.26%、8.21%和12.31%.当放线菌素D的浓度为100 ng/ml时,诱导家蚕BmE-SWU1细胞凋亡的效果显著;家蚕血液对放线菌素D诱导的家蚕BmE-SWU1细胞凋亡具有明显的抑制作用.     

Chloroplast autonomy in pigment synthesis

Summary An experimental design developed usingAcetabularia permits a novel approach to studies of cytoplasmic genetic functions. The site of the genes for the enzymes of the plastid pigment pathways were examined by 1. determining pigment content per cell and per chloroplast in intact cells and during long periods of enucleate cell growth, 2. comparing pigment synthetic activities of plastids isolated from intact and enucleate cells at various times postenucleation and 3. comparing the ability of intact and enucleate cells to modulate pigment content in response to various light regimens.Intact cells grow and increase their pigment content exponentially. Enucleate cells grow at the control rate for several weeks and increase their chloroplast number and pigment content proportionally. Pigment content per plastid remains constant in both intact and enucleate cells. Pigment synthesis in isolated chloroplasts from enucleate cells is normal up to 65 days post-enucleation when compared with isolated chloroplasts from intact control cells. Enucleate cells differentially modulate their pigment content in response to various light regimens in a manner indistinguishable from normal cells.The problems in interpreting these and other results are discussed and it is concluded that plastid autonomy in pigment synthesis is the simplest explanation.     

食蟹猴阴道涂片的动态观察

目的　为食蟹猴实施人工授精和适时配种提供一种有效的测定排卵期的方法。方法　选择 4～ 6岁性成熟的雌性食蟹猴 30只 ,对其阴道涂片进行动态观察。结果与结论　食蟹猴阴道涂片中主要有角化上皮细胞、中层基底细胞、白细胞和细胞碎片等。分析结果说明 ,白细胞数各时期差异均具显著性 ;角化上皮细胞在月经前期和月经期没有差异 ,但其他各期差异具显著性 ;月经期和月经后期中层基底细胞数目变化差异不显著 ,但其他各期差异具显著性 ;月经前期和月经期的细胞碎片数目相似 ,但其他各期差异具显著性。各时期细胞成份变化规律是 ,角化上皮细胞从月经期到排卵期呈逐渐增加至最高 ,然后逐渐减少 ;而白细胞、中层基底细胞和细胞碎片则恰好相反。     

Antitumour immune responses

The role of the immune system in combating tumour progression has been studied extensively. The two branches of the immune response - humoral and cell-mediated - act both independently and in concert to combat tumour progression, the success of which depends on the immunogenicity of the tumour cells. The immune system discriminates between transformed cells and normal cells by virtue of the presence of unique antigens on tumour cells. Despite this, the immune system is not always able to detect and kill cancerous cells because neoplasms have also evolved various strategies to escape immune surveillance. Attempts are being made to trigger the immune system into an early and efficient response against malignant cells, and various therapeutic modalities are being developed to enhance the strength of the immune response against tumours. This review aims to elucidate the tumoricidal role of various components of the immune system, including macrophages, lymphocytes, dendritic cells and complement.     

Regulation of DNA synthesis by guanosine-5′-diphosphate, cyclic guanosine-3′,5′-monophosphate, and cyclic adenosine-3′,5′-monophosphate in mouse lymphoid cells

The effect of various adenine and guanine nucleotides and nucleosides on DNA synthesis was studied in various types of mouse lymphoid cells. Two out of the ten compounds tested, namely guanosine-5′-diphosphate (GDP) and cyclic guanosine-3′,5′-monophosphate (cGMP) increased the thymidine incorporation into the DNA of the spleen cells and counteracted completely or partially the inhibitory action of cyclic adenosine-3′,5′-monophosphate (cAMP) on spleen cells stimulated by various B or T cell mitogens. GDP seems to act preferentially on thymus cells while cGMP acts better on bone marrow cells. The possible significance of the results for the mechanism of the mitogenic signal is discussed.     

A glycolytic marker test for individualizing the selection of chemical compounds for antitumor activity]

Based on literature data on effects of various preparations on the glycolysis in tumor and normal cells, a glycolytic molecular biochemical marker is proposed to screen chemical substances as potential antitumor drugs. A glycolytic specificity was noted in tumor cells which was regarded as a criterion for distinction of tumor cells from normal ones and among various histotypes of tumor cells as well as for the selective sensitivity of tumor cells to a substance. 17 of 38 substances tested were observed to inhibit glycolysis in tumor cells. The testing chemical substances for an antitumor activity with application of the glycolytic marker is recommended. A possibility is discussed of applying the marker for testing potential antitumor drugs, their individualization, and genetic typing.     

Induction of pluripotency in mammalian fibroblasts by cell fusion with mouse embryonic stem cells

BackgroundCell fusion is a phenomenon that is observed in various tissues in vivo, resulting in acquisition of physiological functions such as liver regeneration. Fused cells such as hybridomas have also been produced artificially in vitro. Furthermore, it has been reported that cellular reprogramming can be induced by cell fusion with stem cells.MethodsFused cells between mammalian fibroblasts and mouse embryonic stem cells were produced by electrofusion methods. The phenotypes of each cell lines were analyzed after purifying the fused cells.ResultsColonies which are morphologically similar to mouse embryonic stem cells were observed in fused cells of rabbit, bovine, and zebra fibroblasts. RT-PCR analysis revealed that specific pluripotent marker genes that were never expressed in each mammalian fibroblast were strongly induced in the fused cells, which indicated that fusion with mouse embryonic stem cells can trigger reprogramming and acquisition of pluripotency in various mammalian somatic cells.ConclusionsOur results can help elucidate the mechanism of pluripotency maintenance and the establishment of highly reprogrammed pluripotent stem cells in various mammalian species.     

Members of the syndecan family of heparan sulfate proteoglycans are expressed in distinct cell-, tissue-, and development-specific patterns.

The syndecans are a gene family of four transmembrane heparan sulfate proteoglycans that bind, via their HS chains, diverse components of the cellular microenvironment. To evaluate the expression of the individual syndecans, we prepared cDNA probes to compare mRNA levels in various adult mouse tissues and cultured mouse cells representing various epithelial, fibroblastic, endothelial, and neural cell types and B cells at various stages of differentiation. We also prepared antibody probes to assess whether the extracellular domains of the individual syndecans are shed into the conditioned media of cultured cells. Our results show that all cells and tissues studied, except B-stem cells, express at least one syndecan family member; most cells and tissues express multiple syndecans. However, each syndecan family member is expressed selectively in cell-, tissue-, and development-specific patterns. The extracellular domain of all syndecan family members is shed as an intact proteoglycan. Thus, most, if not all, cells acquire a distinctive repertoire of the four syndecan family members as they differentiate, resulting in selective patterns of expression that likely reflect distinct functions.     

The relative proportion of pre-enterochromaffin (argyrophile) and enterochromaffin (argentaffin) cells in the gastro-intestinal tract of human foetuses

Summary The proportion of argyrophile cells that are argentaffin varies considerably over different parts of the gastro-intestinal tract of the human foetus. In the small intestine plots of the number of argentaffin cells against the number of argyrophile cells, at various cranio-caudal levels, reveal no correlation. The percentage of argyrophile cells that are argentaffin decreases in a caudal direction in the proximal part of the small intestine, but markedly increases in the distal part. In the large intestine there is a positive correlation between the numbers of argyrophile and argentaffin cells, but the percentage of argyrophile cells that are argentaffin also varies with cranio-caudal level. The pattern of this variation is not consistent in the various foetuses studied.     

Identification and Characterization of Epithelial Cells in Mammalian Tissues by Immunofluorescence Microscopy Using Antibodies to Prekeratin

The occurrence of intermediate-sized filaments containing prekeratin-like proteins ('cytokeratins') has been examined in various organs of rat and cow by electron microscopy and by immunofluorescence microscopy on frozen sections using antibodies to defined constitutive proteins of various types of intermediate-sized filaments (prekeratin, vimentin, desmin). Positive cytokeratin reaction and tonofilament-like structures have been observed in the following epithelia: epidermis; ductal, secretory, and myoepithelial cells of sweat glands; mammary gland duct; myoepithelial cells of lactating mammary gland; milk secreting cells of cow; ductal, secretory, and myoepithelial cells of various salivary glands; tongue mucosa; bile duct; excretory duct of pancreas; intestinal mucosa; urothelium; trachea; bronchi; thymus reticulum, including Hassall corpuscles; mesothelium; uterus; and ciliated cells of oviduct. None of the epithelial cells mentioned has shown significant reaction with antibodies to vimentin, the major component of the type of intermediate-sized filaments predominant in mesenchymal cells. The widespread, if not general occurrence of cytokeratin filaments in epithelial cells is emphasized, and it is proposed to use this specific structure as a criterion for true epithelial character or origin.     

Methomyl,imbraclaobrid and clethodim induced cytomixis and syncytes behaviors in PMCs of Pisum sativum L: Causes and outcomes

Cytomixis is a common phenomenon observed in meiotic cells such as anther which is influenced by various factors. Use of pesticides is a common practice in agriculture. However, it is not known whether pesticides can induce cytomixis in plant cells and induce genetic variation. To understand this, the present study was planned to assess the cytomixis and syncytes behaviors in PMCs of Pisum sativum L. Seeds of P. sativum (Family: Fabaceae) were treated with different concentrations of commonly used pesticides methomyl (ME), imbraclaobrid (IM) and clethodim (CL). Seeds were treated with various concentrations (0.1, 0.2, 0.3, 0.4 and 0.5% of ME, IM and CL prepared in water) for 1 and 3 h. Effect of pesticides on pollen fertility, frequency of cytomixis, and kind of cytomixis cells was assessed. In the cytomixis cells, the cytomictic channel (CC) and direct fusion (DF), and various stages of meiosis (PI, MI, AI and TI) with cytomixis cells were observed. In addition, frequency of syncytes cell and their various stages of meiosis I (PI, MI, AI and TI) in pollen mother cells (PMCs) was assessed. During the microsporogenesis in P. sativum, the occurrence of cytomixis and syncytes at various stages of meiosis I were seen. The formation of cytoplasmic channels and direct fusing of pollen mother cells (PMCs) were both seen to cause cytomixis, with the former being more common than the latter. The percentage of PMCs with cytomixis and syncytes cells increased with increase in the concentration of pesticides. The result of the present investigation indicates that commonly used pesticides ME, IM, and CL have a significant effect on pollen fertility, frequency of cytomixis, and kind of cytomixis cells, the cytomictic channel (CC) and direct fusion (DF), in addition, frequency of syncytes cell and their various stages of meiosis I (PI, MI, AI and TI) in pollen mother cells (PMCs) on P. sativum.     

Regulation of apoptosis by Caspases under oxidative stress conditions in mice testicular cells: in vitro molecular mechanism

Exposure to various toxicants is known to cause apoptosis in various cell types. The spermatogenic cells are particularly sensitive to various deleterious conditions including toxicant exposure. The affected cells might undergo apoptosis; however, the mechanisms may be different for different kinds of insults to the cells. In the present study, we looked into the mechanisms involved in apoptosis after exposure of testicular cells from mice to two different chemicals, diethyl maleate (DEM) and tert-butyl hydroperoxide (TBHP). For the study, cells were maintained for 4 h under various treatments: control (media only), 0.25 mM DEM, 0.5 mM DEM, 0.25 mM TBHP, and 0.5 mM TBHP. The treated cells were then harvested for various estimations, viz. viability, reduced and oxidized glutathione, redox ratio, free radical generation, and ethidium bromide/acridine orange co-staining. mRNA was extracted for RT-PCR analysis of Caspase 3, Caspase 8, Caspase 9, p53, p21, Bax, and Bcl-2. It was observed that both the treatments resulted in decreased levels of reduced glutathione and a concomitant increase in the oxidized form and ROS levels in a dose-dependent manner. The apoptotic cell death was evident from ethidium bromide/acridine orange staining. The mRNA expression pattern of various Caspases showed progressive increase in Caspase 3 and Caspase 9 mRNA in both the treatments in a dose-dependent manner, whereas there was no change in Caspase 8 mRNA expression. p53, p21, and Bax also showed increased expression, whereas Bcl-2 expression remained unchanged in DEM treatments and increased significantly in both TBHP treatments. Hence, the present study indicates the involvement and activation of various apoptotic factors, particularly Caspase 3 and 9 along with p53, in response to exposure of testicular cells to DEM and TBHP.     

Role of a new member of IGFBP superfamily, IGFBP-rP10, in proliferation and differentiation of osteoblastic cells

Bone regeneration is critically regulated by various molecules. To identify the new genes involved in bone regeneration, we performed microarray-based gene expression analysis using a mouse bone regeneration model. We identified a new member of the IGFBP superfamily, designated IGFBP-rP10, whose expression is up-regulated at the early phase of bone regeneration. IGFBP-rP10 consists of an IGFBP homologous domain followed by a Kazal-type protein inhibitor domain and an immunoglobulin G-like domain. A real-time-based RT-PCR analysis demonstrated that various tissues including bone expressed IGFBP-rP10 mRNA in various degrees, and confirmed an up-regulation at the early phase of bone regeneration. In situ hybridization revealed that osteoblastic cells expressed IGFPB-rP10 mRNA during bone regeneration. Bone morphogenetic protein-2 increased the expression level of IGFBP-rP10 mRNA in various cells including C3H10T1/2, MC3T3-E1, C2C12, and primary murine osteoblastic cells. The addition of recombinant mouse IGFBP-rP10 promoted the proliferation of these cells but failed to stimulate alkaline phosphatase activity. These results suggest that IGFBP-rP10 is involved in the proliferation of osteoblasts during bone formation and bone regeneration.