Cardiomyocyte-like cells differentiation from non β-catenin expression mesenchymal stem cells

Recent studies have shown that block wnt/β-catenin signaling pathway is integrant for cardiomyocytes differentiation from bone marrow mesenchymal stem cells (MSCs). By transducing the MSCs with lentivirus which contain β-catenin interference RNA, we screened out the non β-catenin expression clone. In the establishment of knockdown β-catenin in MSCs, we investigated the role of 5-azacytidine (5-aza), salvianolic acid B (salB), and cardiomyocytes lysis medium (CLM) in inducing MSCs to differentiate into cardiomyocyte-like cells. A method for culturing MSCs and cardiomyocytes was established. Purified MSCs were investigated by flow cytometry. The MSCs were positive for CD90 and CD29, but negative for CD34 and CD45. Meanwhile, the cardiomyocytes contracted spontaneously after 24 h of seeding into the plates. The fourth-passage non-β-catenin expression MSCs were divided into eight groups: control group, 5-aza, salB, CLM, 5-aza + salB, 5-aza + CLM, salB + CLM, and 5-aza + salB + CLM. The gene and protein expression of cTnT, α-actin, β-myosin, β-catenin, and GSK-3β were detected by quantitative real-time PCR and Western blotting. Our results showed that cTnT expression in 5-aza + salB + CLM group was ninefold higher than in the control group in the non-β-catenin MSCs model, implying that cardiomyocytes differentiation from MSCs is an extremely complicated process and it is necessary to consider the internal and external environmental conditions, such as suitable pharmaceutical inducers, cardiomyocytes microenvironments, inhibition of the negative signaling pathway and so on.     

Ba2+ currents in inner and outer hair cells of mice lacking the voltage-dependent Ca2+ channel subunits β3 or β4

Voltage-activated Ca2+ channels comprise complexes of a pore-forming Cavα1 and auxiliary subunits Cavβ, Cavα2δ and sometimes Cavγ. The intracellular Cavβ subunit assists in trafficking and surface expression of the Cavα1 subunit and can modulate biophysical properties of the Ca2+ channel. Four genes, Cavβ1-4, exist which confer different properties to Ca2+ currents through the various Cavα1 subunits. Ca2+ currents in cochlear inner (IHC) and outer hair cells (OHC) serving synaptic transmission flow predominantly through the L type Cavα1 subunit Cav1.3, but associated Cavβ subunits are unknown. In the organ of Corti, we found mRNA and protein for all four Cavβ subunits including Cavβ2, but clear assignment of the Cavβ1 4 immunolabelling with hair cells or nerve fibers was difficult. We analyzed Cavβ3 knockout (Cavβ3 / ) and Cavβ4 mutant mice (Cavβ4lh/lh), which had normal hearing. Recording voltage-activated Ba2+ currents from hair cells of the two mouse models revealed distinct significant changes of cell size and Ba2+ current properties compared with their wildtype controls. Neonatal Cavβ4lh/lh IHCs showed reduced membrane capacitances and changes in the voltage dependence and kinetics of current activation, whereas mature IHCs had reduced peak currents compared with Cavβ4wt, altogether indicating the presence of Cavβ4 in IHCs. Ba2+ currents of Cavβ3 / OHCs showed largely reduced amplitudes, changes in the voltage dependence and kinetics of Ba2+ current activation, and increased inactivation compared with Cavβ3wt, pointing to a role of Cavβ3 for OHCs. These results indicate that neither Cavβ3 nor Cavβ4 are indispensable for hair cell Ca2+ currents but contribute to the overall current properties.     

Thymosin β4 promotes the migration of endothelial cells without intracellular Ca2+ elevation

Numerous studies have demonstrated the effects of Tβ4 on cell migration, proliferation, apoptosis and inflammation after exogenous treatment, but the mechanism by which Tβ4 functions is still unclear. Previously, we demonstrated that incubation of endothelial cells with Tβ4 induced synthesis and secretion of various proteins, including plasminogen activator inhibitor type 1 and matrix metaloproteinases. We also showed that Tβ4 interacts with Ku80, which may operate as a novel receptor for Tβ4 and mediates its intracellular activity. In this paper, we provide evidence that Tβ4 induces cellular processes without changes in the intracellular Ca(2+) concentration. External treatment of HUVECs with Tβ4 and its mutants deprived of the N-terminal tetrapeptide AcSDKP (Tβ4(AcSDKPT/4A)) or the actin-binding sequence KLKKTET (Tβ4(KLKKTET/7A)) resulted in enhanced cell migration and formation of tubular structures in Matrigel. Surprisingly, the increased cell motility caused by Tβ4 was not associated with the intracellular Ca(2+) elevation monitored with Fluo-4 NW or Fura-2 AM. Therefore, it is unlikely that externally added Tβ4 induces HUVEC migration via the surface membrane receptors known to generate Ca(2+) influx. Our data confirm the concept that externally added Tβ4 must be internalized to induce intracellular mechanisms supporting endothelial cell migration.     

Degradation of β-lactam antibiotics by polyacrylamide-entrapped β-lactamase-producingE. coli cells

Summary Cells of a -lactamase producingE. coli strain were immobilized with acrylamide and lyophilized. The gel particles containing the entrapped cells were used like an immobilized enzyme to study the inactivation of -lactam antibiotics. The substrate profile of the -lactamase was determined and the action of -lactamase inhibitors studied.     

Zn2+ and l-isoleucine induce the expressions of porcine β-defensins in IPEC-J2 cells

The β-defensins, expressed in epithelial cells of multiple tissues including intestine, play a critical role in the mammalian innate immunity. However, it is little known about the role of functional nutrients in the regulation of porcine β-defensins’ expressions in intestinal epithelial cells. The present study was conducted to determine the hypothesis that zinc and l-isoleucine regulate the expressions of porcine β-defensins in IPEC-J2 cells. Cells were cultured in DMEM/F12 medium containing supplemental 0–500 μg/mL l-isoleucine or 0–500 μmol/mL zinc sulfate that was used to increase the concentration of Zn²⁺ in the medium. At 12 h after the treatment by the appropriate concentrations of l-isoleucine or Zn²⁺, the mRNA and protein expressions of porcine β-defensin 1, 2 and 3 were increased (P < 0.05), and reached their maximum after treatment with 25 or 100 μmol/mL zinc sulfate and 25 or 50 μg/mL isoleucine (P < 0.05). These results suggested that both Zn²⁺ and l-isoleucine could induce β-defensins’ expressions in porcine intestinal epithelial cells.     

Amniotic fluid stem cells prevent β-cell injury

Background aimsThe contribution of amniotic fluid stem cells (AFSC) to tissue protection and regeneration in models of acute and chronic kidney injuries and lung failure has been shown in recent years. In the present study, we used a chemically induced mouse model of type 1 diabetes to determine whether AFSC could play a role in modulating β-cell injury and restoring β-cell function.MethodsStreptozotocin-induced diabetic mice were given intracardial injection of AFSC; morphological and physiological parameters and gene expression profile for the insulin pathway were evaluated after cell transplantation.ResultsAFSC injection resulted in protection from β-cell damage and increased β-cell regeneration in a subset of mice as indicated by glucose and insulin levels, increased islet mass and preservation of islet structure. Moreover, β-cell preservation/regeneration correlated with activation of the insulin receptor/Pi3K/Akt signaling pathway and vascular endothelial growth factor-A expression involved in maintaining β-cell mass and function.ConclusionsOur results suggest a therapeutic role for AFSC in preserving and promoting endogenous β-cell functionality and proliferation. The protective role of AFSC is evident when stem cell transplantation is performed before severe hyperglycemia occurs, which suggests the importance of early intervention. The present study demonstrates the possible benefits of the application of a non–genetically engineered stem cell population derived from amniotic fluid for the treatment of type 1 diabetes mellitus and gives new insight on the mechanism by which the beneficial effect is achieved.     

Immobilized bacterial cells containing a thermostable β-galactosidase

Summary A constitutive -galactosidase has been localized in the cytosol of thermoacidophilic bacterium Caldariella acidophila. Cells have been entrapped in polyacrylamide gel with full retention of enzymic activity; no activity decrease is observed after 8 months of storage. Enzyme properties in entrapped cells are similar to those of the free enzyme. A 73% hydrolysis of lactose has been achieved in a continuous system on a 2 ml entrapped cell column operating at 70°C; half life in these conditions is 30 days.In this paper we report preliminary data on immobilization of cells of Caldariella acidophila, an extreme thermophilic bacterium having a constitutive -galactosidase (EC 3.2.1.23) activity.     

Neurogenin 3+ cells contribute to β-cell neogenesis and proliferation in injured adult mouse pancreas

We previously showed that injury by partial duct ligation (PDL) in adult mouse pancreas activates Neurogenin 3 (Ngn3)⁺ progenitor cells that can differentiate to β cells ex vivo. Here we evaluate the role of Ngn3⁺ cells in β cell expansion in situ. PDL not only induced doubling of the β cell volume but also increased the total number of islets. β cells proliferated without extended delay (the so-called ‘refractory'' period), their proliferation potential was highest in small islets, and 86% of the β cell expansion was attributable to proliferation of pre-existing β cells. At sufficiently high Ngn3 expression level, upto 14% of all β cells and 40% of small islet β cells derived from non-β cells. Moreover, β cell proliferation was blunted by a selective ablation of Ngn3⁺ cells but not by conditional knockout of Ngn3 in pre-existing β cells supporting a key role for Ngn3⁺ insulin⁻ cells in β cell proliferation and expansion. We conclude that Ngn3⁺ cell-dependent proliferation of pre-existing and newly-formed β cells as well as reprogramming of non-β cells contribute to in vivo β cell expansion in the injured pancreas of adult mice.     

Human IgM+CD27+ B cells: memory B cells or "memory" B cells?

Memory B cells are generated in germinal centers (GC) and contribute to serological immunity by rapidly differentiating into plasma cells. Human memory B cells can be identified by the expression of CD27. These cells exhibit more rapid responses than naive (CD27-) B cells following stimulation in vitro, consistent with the heightened kinetics of secondary responses in vivo. CD27+ B cells express mutated Ig V region genes; however a significant proportion continue to express IgM, suggesting the existence of IgM+ memory B cells. The observation that mutated IgM+CD27+ B cells are generated in humans who cannot form GC led to the conclusions that these cells are generated independently of GC and thus are not memory cells and that they mediate responses to T cell-independent Ag. Although some studies support the idea that IgM+CD27+ B cells participate in T cell-independent responses, many others do not. In this review we will provide alternate interpretations of the biology of IgM+CD27+ B cells and propose that they are indeed memory cells.     

A novel adhesion molecule in human breast cancer cells: Voltage-gated Na+ channel β1 subunit

Voltage-gated Na⁺ channels (VGSCs), predominantly the ‘neonatal’ splice form of Na_v1.5 (nNa_v1.5), are upregulated in metastatic breast cancer (BCa) and potentiate metastatic cell behaviours. VGSCs comprise one pore-forming α subunit and one or more β subunits. The latter modulate VGSC expression and gating, and can function as cell adhesion molecules of the immunoglobulin superfamily. The aims of this study were (1) to determine which β subunits were expressed in weakly metastatic MCF-7 and strongly metastatic MDA-MB-231 human BCa cells, and (2) to investigate the possible role of β subunits in adhesion and migration. In both cell lines, the β subunit mRNA expression profile was SCN1B (encoding β1) ? SCN4B (encoding β4) > SCN2B (encoding β2); SCN3B (encoding β3) was not detected. MCF-7 cells had much higher levels of all β subunit mRNAs than MDA-MB-231 cells, and β1 mRNA was the most abundant. Similarly, β1 protein was strongly expressed in MCF-7 and barely detectable in MDA-MB-231 cells. In MCF-7 cells transfected with siRNA targeting β1, adhesion was reduced by 35%, while migration was increased by 121%. The increase in migration was reversed by tetrodotoxin (TTX). In addition, levels of nNa_v1.5 mRNA and protein were increased following β1 down-regulation. Stable expression of β1 in MDA-MB-231 cells increased functional VGSC activity, process length and adhesion, and reduced lateral motility and proliferation. We conclude that β1 is a novel cell adhesion molecule in BCa cells and can control VGSC (nNa_v1.5) expression and, concomitantly, cellular migration.     

Pro-apoptotic role of integrin β3 in glioma cells

Malignant gliomas are the most destructive type of brain cancer. In order to gain a better understanding of the molecular mechanisms of glioma cell death and survival, we previously established an alkylating agent 1, 3-bis(2-chloroethyl)-1-nitrosourea (BCNU)-resistant variant of C6 rat glioma cells. Proteomic analysis indicated a significant down-regulation of integrin beta 3 (ITGB3) in the BCNU-resistant C6R cells. Re-expression of ITGB3 in C6R cells restored the BCNU sensitivity. In U87MG, U373MG, and T98G human glioma cells, there was a positive correlation between ITGB3 expression and the sensitivity to BCNU and etoposide, suggesting an important role of ITGB3 in glioma cell death. Over-expression of ITGB3 cDNA significantly increased the sensitivity of the human glioma cells to the anticancer drug-induced apoptosis. Nitric oxide showed an additive effect on the anticancer drug-induced glioma cell death by increasing ITGB3 expression. Subsequent dissection of signaling pathways indicated that extracellular signal-regulated kinase and unligated integrin-mediated cell death pathway may be involved in the pro-apoptotic role of ITGB3 in glioma cells. These results implicate ITGB3 in glioma cell death/survival and drug resistance.     

Primaquine-induced superoxde production by β-thalassemic red blood cells

Primaquine, a prooxidant antimalarial drug, incubated with human red blood cells (RBC) induced marked superoxide generation in the cells as detected by exogenous cytochrome c reduction. In the presence of primaquine, β-thalassemic RBC produced significantly more superoxide than normal RBC, thus reflecting the vulnerability of β-thalassemic cells to oxidative stress.     

Absence of β2 integrins impairs regulatory T cells and exacerbates CD4+ T cell-dependent autoimmune carditis

The immunopathogenic mechanisms mediating inflammation in multiorgan autoimmune diseases may vary between the different target tissues. We used the K/BxN TCR transgenic mouse model to investigate the contribution of CD4(+) T cells and β(2) integrins in the pathogenesis of autoimmune arthritis and endocarditis. Depletion of CD4(+) T cells following the onset of arthritis specifically prevented the development of cardiac valve inflammation. Genetic absence of β(2) integrins had no effect on the severity of arthritis and unexpectedly increased the extent of cardiovascular pathology. The exaggerated cardiac phenotype of the β(2) integrin-deficient K/BxN mice was accompanied by immune hyperactivation and was linked to a defect in regulatory T cells. These findings are consistent with a model in which the development of arthritis in K/BxN mice relies primarily on autoantibodies, whereas endocarditis depends on an additional contribution of effector T cells. Furthermore, strategies targeting β(2) integrins for the treatment of systemic autoimmune conditions need to consider not only the role of these molecules in leukocyte recruitment to sites of inflammation, but also their impact on the regulation of immunological tolerance.     

Electrochemical immunoassay on expression of integrin β1 on tumor cells and drug-resistant tumor cells

An electrochemical indirect competitive immunoassay protocol as a promising cytosensing strategy was developed to detect integrin β1 expression on human breast cancer MCF-7 cells and adriamycin-resistant human breast cancer MCF-7 (MCF-7/ADR) cells and quantify the cell number. Integrin α5β1 was adsorbed on the gold-nanoparticle modified glassy carbon electrode to bind integrin β1 monoclonal antibody (anti-CD29 mAb). A sandwich structure was then formed using nanocomposites which consisted of horseradish peroxidase (HRP) labeled anti-antibody and gold nanoparticles. HRP bound on the electrode surface could cause an amperometric response of the hydroquinone-H(2)O(2) system. The assembly of the sandwich structure was inhibited by tumor cells to give decreased enzyme-catalytic signals due to the capture of anti-CD29 mAb by integrin β1 on cell membranes. Under optimal conditions the relative current change (S) was proportional to the cell concentration from 1.6×10(3) to 2.0×10(6)cellsmL(-1) with a detection limit of 700cellsmL(-1). Integrin β1 expression in MCF-7/ADR cells was found to be significantly higher than that in MCF-7 cells, indicating the increased adhesion ability of MCF-7/ADR cells.     

The roles of integrin β4 in vascular endothelial cells

Integrin heterodimers play diverse and important roles in physiological and pathological processes, such as cell adhesion, migration, proliferation, differentiation, angiogenesis, and tumor progression, via the outside-in and/or inside-out signaling pathways. Aberrant functions of integrins have been implicated in the causation and intervention of multiple diseases. Integrin β(4), a laminin-5 (LN5) receptor, mainly locates in the adhesion structure of hemidesmosome (HD). Most of the previous researches concentrated on the role of integrin β(4) in cancer and cancer therapy, and a few focused on the physiological roles of normal mammalian cells. Recently, accumulating data reveal that integrin β(4) participates in cell death, macroautophagy (hereafter autophagy), senescence, and differentiation regulations in various cell types including human umbilical vein endothelial cells (HUVECs), mesenchymal stem cells, and mouse neural cells, implying the key roles of integrin β(4) in the physiological alteration of mammalian cells. Thus, the elucidation of integrin β(4)-mediated signaling may undoubtedly contribute to novel therapeutic strategies for various human diseases, such as vascular and neural disorders. We have reviewed the roles of integrin β(4) in neural cells. In the present review we will discuss the recent research progress in the inherent functions and pharmacological modulation of integrin β(4) in vascular endothelial cells.     

Induction of regulatory T cells by a murine β-defensin

β-Defensins are antimicrobial peptides of the innate immune system produced in the skin by various stimuli, including proinflammatory cytokines, bacterial infection, and exposure to UV radiation (UVR). In this study we demonstrate that the UVR-inducible antimicrobial peptide murine β-defensin-14 (mBD-14) switches CD4(+)CD25(-) T cells into a regulatory phenotype by inducing the expression of specific markers like Foxp3 and CTLA-4. This is functionally relevant because mBD-14-treated T cells inhibit sensitization upon adoptive transfer into naive C57BL/6 mice. Accordingly, injection of mBD-14, comparable to UVR, suppresses the induction of contact hypersensitivity and induces Ag-specific regulatory T cells (Tregs). Further evidence for the ability of mBD-14 to induce Foxp3(+) T cells is provided using DEREG (depletion of Tregs) mice in which Foxp3-expressing cells can be depleted by injecting diphtheria toxin. mBD-14 does not suppress sensitization in IL-10 knockout mice, suggesting involvement of IL-10 in mBD-14-mediated immunosuppression. However, unlike UVR, mBD-14 does not appear to mediate its immunosuppressive effects by affecting dendritic cells. Accordingly, UVR-induced immunosuppression is not abrogated in mBD-14 knockout mice. Together, these data suggest that mBD-14, like UVR, has the capacity to induce Tregs but does not appear to play a major role in UVR-induced immunosuppression. Through this capacity, mBD-14 may protect the host from microbial attacks on the one hand, but tame T cell-driven reactions on the other hand, thereby enabling an antimicrobial defense without collateral damage by the adaptive immune system.