Vanadium derivatives act as growth factor — mimetic compounds upon differentiation and proliferation of osteoblast-like UMR106 cells

The effect of different vanadium compounds on proliferation and differentiation was examined in osteoblast-like UMR106 cells. Vanadate increased the cell growth in a biphasic manner, the higher doses inhibiting cell progression. Vanadyl stimulated cell proliferation in a dose-responsive manner. Similar to vanadate, pervanadate increased osteoblast-like cell proliferation in a biphasic manner but no inhibition of growth was observed. Vanadyl and pervanadate were stronger stimulators of cell growth than vanadate. Only vanadate was able to regulate the cell differentiation as measured by cell alkaline phosphatase activity. These results suggest that vanadium derivatives behave like growth factors on osteoblast-like cells and are potential pharmacological tools in the control of cell growth.     

Effects of receptor activator of NF-κB ligand gene silencing on the human osteoblast-like MG63 cells

The osteoprotegerin (OPG)/receptor activator of nuclear factor-κB ligand (RANKL)/receptor activator of NF-κB (RANK) system plays an important role in the pathogenesis of metabolic bone diseases. This study is aimed to investigate effects and mechanisms of RANKL gene silencing on the function of human osteoblast-like MG63 cells by RNA interference using a lentivirus-based small hairpin RNA (vshRNA) delivery system. After RANKL-specific vshRNAs were designed, constructed and transfected into MG63 cells, changes in the expression levels of RANKL mRNA and protein were determined by Western blot and RT-PCR, respectively; changes in cell activity and cell cycle distribution were examined by thiazolyl blue tetrazolium bromide assay and flow cytometry. The expression levels of RANKL mRNA and protein in MG63 cells were reduced by transferring RANKL-specific vshRNAs. Compared to cells infected with negative control virus, the proliferation of cells infected with the recombinant virus was more likely to be inhibited. Furthermore, the cell cycle of MG63 was altered, with the number of G1 phase cells decreasing significantly (P < 0.05). RANKL-specific vshRNAs can significantly inhibit the expression of the target gene in MG63 cells. RANKL gene silencing can inhibit the proliferation and alter the cell cycle of MG63 cells. Our findings suggest that RANKL might play an important role in the regulation of growth and cell cycle of MG63 cells.     

Role of miRNA-146?in proliferation and differentiation of mouse neural stem cells

Neural stem cells (NSCs) have been defined as neural cells with the potential to self-renew and eventually generate all cell types of the nervous system. NSCs serve as an ideal cell type for nervous system repair. In the present study, miR-146 overexpression and predicted target (notch 1) were used to study proliferation and differentiation of mouse NSCs. shRNA were used to demonstrate the function of Notch 1 in proliferation of mouse NSCs and luciferase reporter assay was used to assess and confirm the binding sequence of 3′-UTR between Notch 1 and miR-146. Results showed that miR-146 overexpression and knockdown of notch 1 inhibited proliferation of mouse NSCs under serum-free cultural conditions and promoted spontaneous differentiation of mouse NSCs under contained serum cultural conditions respectively. Mouse NSCs spontaneously underwent differentiation into neurogenic cells with contained serum medium. However, when miR-146 was overexpressed, differentiation efficiency of glial cells from NSCs was increased, suggesting that Notch1 promoted NSC proliferation and repressed spontaneous differentiation of NSC in serum-free medium. In conclusion, our results demonstrate that miR-146 promoted spontaneous differentiation of NSCs, and this mechanism was influenced by miR-146, as well as its target (notch 1) and downstream gene.     

Human adipose-derived stem cells cultured in keratinocyte serum free medium: Donor’s age does not affect the proliferation and differentiation capacities

Background

Although donor age-related effects of characteristics of mesenchymal stem cells (MSC), such as a decrease in the proliferation and differentiation capacity and an increase of senescence and apoptosis, are evident, such effects are generally less prominent in adipose-derived stem cells (ASC). Using a hormone and growth factor rich medium (KFSM), this study cultured ASC from abdominal subcutaneous fat of 27 adult females in three age groups: 30-39 y, 40-49 y and 50-60 y, and investigated the growth and differentiation characteristics.

Results

The derived ASC had an immunophenotype similar to that of bone marrow derived MSC (BMSC). They could be stably expanded with an average population doubling time of 21.5 ± 2.3 h. Other than a higher pre-adipogenic commitment and a lower adipogenic differentiation capability in ASC derived from the old age group, other characteristics including proliferation rate, doubling time, telomere length, as well as the osteogenic and chondrogenic differentiation capacity were the same regardless of the donor’s age.

Conclusions

The study demonstrates a promising proliferation and differentiation capabilities of ASC regardless of the donor’s age. The compromised adipogenic potential in the older donors could be a benefit for their application in regeneration therapy.     

Bioinformatic and expression analysis of novel porcine β-defensins

β-Defensins are a major group of mammalian antimicrobial peptides. Although more than 30 β-defensins have been identified in humans, only one porcine β-defensin has been reported. In this article we report the identification and initial characterization of 11 novel porcine β-defensins (pBD). Using bioinformatic approaches, we screened 287,821 porcine expressed sequence tags for similarity of their predicted peptides to known human β-defensins and identified full-length or partial sequences for the 11 novel pBDs. Similar to the previously identified pBD1, all of these peptides have a consensus β-defensin motif. A differential expression pattern for these newly identified genes was found. For example, unlike most β-defensins, pBD2 and pBD3 were expressed in bone marrow and in other lymphoid tissues including thymus, spleen, lymph nodes, duodenum, and liver. Including pBD2 and pBD3, six porcine β-defensins were expressed in lung and skin. Several newly identified porcine β-defensins, including pBD123, pBD125, and pBD129, were expressed in male reproductive tissues, including lobuli testis and some segments of the epididymis. Phylogenetic analysis indicates that in most cases the evolutionary relationship between individual porcine β-defensins and their human orthologs is closer than the relationship among β-defensins in the same species. These findings establish the existence of multiple porcine β-defensins and suggest that the pig may be an ideal model for the characterization of β-defensin diversity and function. The nucleotide sequence data reported in this article have been submitted to GenBank.     

An improved lentiviral system for efficient expression and purification of β-defensins in mammalian cells

β-Defensins are a family of conserved small cationic antimicrobial peptides with different significant biological functions. The majority of mammalian β-defensins are expressed in epididymis, and many of them are predicted to have post-translational modifications. However, only a few of its members have been well studied due to the limitations of expressing and purifying bioactive proteins with correct post-translational modifications efficiently. Here we developed a novel Fc tagged lentiviral system and Fc tagged prokaryotic expression systems provided new options for β-defensins expression and purification. The novel lentiviral system contains a secretive signal peptide, an N-terminal IgG Fc tag, a green fluorescent protein (GFP), and a puromycin selection marker to facilitate efficient expression and fast purification of β-defensins by protein A magnetic or agarose beads. It also enables stable and large-scale expression of β-defensins with regular biological activities and post-translational modification. Purified β-defensins such as Bin1b and a novel human β-defensin hBD129 showed antimicrobial activity, immuno-regulatory activity, and expected post-translational phosphorylation, which were not found in Escherichia coli (E. coli) in expressed form. Furthermore, we successfully applied the novel system to identify mBin1b interacting proteins, explaining Bin1b in a better way. These results suggest that the novel lentiviral system is a powerful approach to produce correct post-translational processed β-defensins with bioactivities and is useful to identify their interacting proteins. This study has laid the foundation for future studies to characterize function and mechanism of novel β-defensins.     

Effects of Wnt/β-catenin signalling on proliferation and differentiation of apical papilla stem cells

Objectives: The Wnt signalling pathway has been shown to play an important role in tooth development, however its effects with stem cells from the apical papilla (SCAP) have remained unclear. The purpose of this study was to determine effects of Wnt/β‐catenin on proliferation and differentiation of SCAP in vitro. Materials and methods: SCAP were obtained, identified and cultured. Cell proliferation, alkaline phosphatase (ALP) activity, mRNA expression of mineralization‐related genes and mineralized nodule formation were measured in presence or absence of various concentrations of lithium chloride. Results: MTT assay and flow cytometry demonstrated that Wnt/β‐catenin activity could promote proliferation of SCAP. Real‐time PCR analysis found that Wnt/β‐catenin strongly upregulated expression of dentine sialophosphoprotein, osteocalcin and ALP in SCAP after incubation with mineralization induction medium, while ALP and alizarin red staining indicated that Wnt/β‐catenin enhanced ALP activity and formation of mineralized nodules. Conclusion: Our results suggest that canonical Wnt/β‐catenin signalling promotes proliferation and odonto/osteogenic differentiation of SCAP.     

How are proliferation and differentiation of melanocytes regulated?

Coat colors are determined by melanin (eumelanin and pheomelanin). Melanin is synthesized in melanocytes and accumulates in special organelles, melanosomes, which upon maturation are transferred to keratinocytes. Melanocytes differentiate from undifferentiated precursors, called melanoblasts, which are derived from neural crest cells. Melanoblast/melanocyte proliferation and differentiation are regulated by the tissue environment, especially by keratinocytes, which synthesize endothelins, steel factor, hepatocyte growth factor, leukemia inhibitory factor and granulocyte-macrophage colony-stimulating factor. Melanocyte differentiation is also stimulated by alpha-melanocyte stimulating hormone; in the mouse, however, this hormone is likely carried through the bloodstream and not produced locally in the skin. Melanoblast migration, proliferation and differentiation are also regulated by many coat color genes otherwise known for their ability to regulate melanosome formation and maturation, pigment type switching and melanosome distribution and transfer. Thus, melanocyte proliferation and differentiation are not only regulated by genes encoding typical growth factors and their receptors but also by genes classically known for their role in pigment formation.     

Evolution, expression and effectiveness in a cluster of novel bovine β-defensins

The anti-microbial peptides β-defensins constitute a large family of innate immune effector molecules, conserved across a wide species range. In this paper, we describe a systematic search of the sequenced bovine genome to characterise this extensive gene family in Bos taurus, providing an insight into the pattern of conservation of β-defensin genes between species. We have sequenced a sub-set of these newly discovered bovine β-defensin genes and also report expression data for these genes across a range of tissues. We have synthesised the peptide product of one of these genes, bovine β-defensin 123, and found it to be a potent inhibitor of several pathogenic microbes, particularly Escherichia coli and Listeria monocytogenes. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Expression systems of human β-defensins: vectors,purification and biological activities

Human beta-defensins are 2–5 kDa, cationic, microbicidal peptides, which represent the first-line host defense against several Gram-negative and Gram-positive bacteria, fungi and viruses. They contain a conserved disulfide-bridge pattern of three pairs of intramolecular cystine bonds. The well-known public health problem related with the growing number of multiresistant bacteria has driven research to look for novel antibiotics, such beta-defensins and a feasible way to produce them. Heterologous expression of beta-defensins could be one way to generate large quantities of beta-defensins for clinical research; however, heterologous expression of beta-defensins has some biochemical problems, such toxicity toward the host cell, peptide degradation by proteolytic cell enzymes, size, folding constrains and low recombinant peptide yields. In this communication, several heterologous systems for producing human beta-defensins are reviewed.     

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.     

Enhancement of amygdalin activated with β-d-glucosidase on HepG2 cells proliferation and apoptosis

The growth inhibition and induction of apoptosis brought by amygdalin and activated with β-d-glucosidase were tested for cytoactivity in HepG2 cells. The MTT viability assay showed that all samples had effects on HepG2 proliferation in dose and time response manners. IC₅₀ of stand-alone amygdalin and activation with β-d-glucosidase on the proliferation of HepG2 cells for 48 h were 458.10 mg/mL and 3.2 mg/mL, respectively. Moreover, apoptotic cells were determined by AO/EB (acridine orange/ethidium bromide) fluorescent staining method and Annexin V-FITC/PI staining flow cytometry cell cycle analysis. With increasing of amygdalin concentration and the incubation time, the apoptotic rate was heightened. Compared with the control, there was significant difference (p < 0.01). Together, these findings indicate that amygdalin had no strong anti-HepG2 activity; however the ingredients of amygdalin activated with β-d-glucosidase had a higher and efficient anti-HepG2 activity. It was therefore suggested that this combination strategy may be applicable for treating tumors with a higher activity.     

Metformin promotes Mycobacterium tuberculosis killing and increases the production of human β-defensins in lung epithelial cells and macrophages

Diabetes has been associated with an increased risk of developing tuberculosis. The reasons related to the increased susceptibility to develop TB in type 2 diabetes mellitus (T2DM) individuals, has not been completely elucidated. However, this susceptibility has been attributed to several factors including failures and misfunctioning of the immune system. In the present study, we aimed to determine the role of anti-hyperglycemic drugs such as glyburide, insulin, and metformin to promote the killing of mycobacteria through the regulation of innate immune molecules such as host defense peptides (HDP) in lung epithelial cells and macrophages. Our results showed that metformin reduces bacillary loads in macrophages and lung epithelial cells which correlates with higher production of β-defensin-2, -3 and -4. Since β-defensins are crucial molecules for controlling Mycobacterium tuberculosis growth, the present results suggest that the use of metformin would be the first choice in the treatment for T2DM2, in patients within tuberculosis-endemic areas.     

Investigation of the effect of α-melanocyte-stimulating hormone on proliferation and early stages of differentiation of human induced pluripotent stem cells

We have studied the influence of α-melanocyte-stimulating hormone (α-MSH) on proliferation and early stages of differentiation of human induced pluripotent stem cells (iPSc). We have demonstrated that α-MSH receptor genes are expressed in undifferentiated iPSc. The expression levels of MCR1, MCR2, and MCR3 increased at the embryoid body (EB) formation stage. The formation of neural progenitors was accompanied by elevation of MCR2, MCR3, and MCR4 expression. α-MSH had no effect on EB generation and iPSc proliferation at concentrations ranging from 1 nM to 10 μM. At the same time, α-MSH increased the generation of neural rosettes in human iPSc cultures more than twice.     

α-Tocopheryl succinate affects malignant cell viability,proliferation, and differentiation

The widespread occurrence of malignant tumors motivates great attention to finding and investigating effective new antitumor preparations. Such preparations include compounds of the vitamin E family. Among them, α-tocopheryl succinate (vitamin E succinate (VES)) has the most pronounced antitumor properties. In this review, various targets and mechanisms of the antitumor effect of vitamin E succinate are characterized. It has been shown that VES has multiple intracellular targets and effects, and as a result VES is able to induce apoptosis in tumor cells, inhibit their proliferation, induce differentiation, prevent metastasizing, and inhibit angiogenesis. However, VES has minimal effects on normal cells and tissues. Due to the variety of targets and selectivity of action, VES is a promising agent against malignant neoplasms. More detailed studies in this area can contribute to development of effective and safe chemotherapeutic preparations.     

Inhibition of integrin β3, a binding partner of kallistatin,leads to reduced viability,invasion and proliferation in NCI-H446 cells

Background

Kallistatin is a serine proteinase inhibitor and heparin-binding protein. It is considered an endogenous angiogenic inhibitor. In addition, multiple studies demonstrated that kallistatin directly inhibits cancer cell growth. However, the molecular mechanisms underlying these effects remain unclear.

Methods

Pull-down, immunoprecipitation, and immunoblotting were used for binding experiments. To elucidate the mechanisms, integrin β3 knockdown (siRNA) or blockage (antibody treatment) on the cell surface of small the cell lung cancer NCI-H446 cell line was used.

Results

Interestingly, kallistatin was capable of binding integrin β3 on the cell surface of NCI-H446 cells. Meanwhile, integrin β3 knockdown or blockage resulted in loss of antitumor activities induced by kallistatin. Furthermore, kallistatin suppressed tyrosine phosphorylation of integrin β3 and its downstream signaling pathways, including FAK/-Src, AKT and Erk/MAPK. Viability, proliferation and migration of NCI-H446 cells were inhibited by kallistatin, with Bcl-2 and Grb2 downregulation, and Bax, cleaved caspase-9 and caspase 3 upregulation.

Conclusions

These findings reveal a novel role for kallistatin in preventing small cell lung cancer growth and mobility, by direct interaction with integrin β3, leading to blockade of the related signaling pathway.