The involvement of TGF-β1 and CTGF in regional gingival overgrowth

Gingival overgrowth is a multifactorial and invalidating condition. Our research is about gingival overgrowth caused by gingival plaque, its purpose being the evaluation of the presence of gingivitis and/or parodontitis in patients with gingival growth and the extent in which there is a connection between gingival overgrowth and the inflammatory process that can contribute to an exceedingly stimulation of the overgrowth. Immunohistological study was conducted on human material--gingival mucosa that came from patients with ages between 20-65 years, divided into three groups: group I--control group, group II--patients with gingivitis, group III--patients with local or general periodontitis. The intensity of immunohistochemical staining of TGF-β1 and CTGF varies from one group to another, and also depends on the area of gingival mucosa that was observed. TGF-β1 has a crucial role in periodontal disease fibrogenesis by intensifying the action of CTGF.     

The role of β1 1 integrins in adhesion of two breast carcinoma cell lines to a model endothelium

Interactions between tumour cells and the endothelium are vital to the formation of haematogenous metastases. Binding to model endothelium of one oestrogen receptor positive breast carcinoma cell line (MCF-7) and one receptor negative line (HS578T) was examined in vitro together with endothelial retraction induced by these tumour cells. Adhesion was inhibited by monoclonal antibodies specific for the VLA integrins and by peptides containing the RGD motif which is commonly recognised as a ligand by the VLA adhesion molecules. However, binding of the two tumour cell lines was inhibited by monoclonal antibodies specific for different VLA molecules; anti-61 inhibited MCF-7 adhesion but anti-51 inhibited Hs578T. These results were consistent with flow cytometric quanfication of the expression of these VLA integrins on the surfaces of the two tumour cell lines. Enzyme-linked immunosorbent assays (ELISA) demonstrated that laminin was present on the endothelial cell surface but collagen IV was absent. ELISA failed to detect increased exposure of the subendothelial matrix during the first hour after addition of either cancer cell type. This was supported by assays which demonstrated maintenance of the endothelial permeability barrier during this period. Slight endothelial retraction was detected within 2 hours of the addition of tumour cells. It is concluded that binding between tumour cells and confluent endothelium is inhibited by the blockade of adhesion molecules which are normally associated with interactions between the cell and the subendothelial matrix. Tumour cell to matrix interactions rather than direct tumour to endothelial cell adhesion may be the limiting step in tumour cell binding to the endothelium.     

Characterization of a macrophage-based system for studying the activiation of latent TGF-β

TGF- has been implicated in scarring and tissue fibrosis. Most cells secrete TGF- as a high molecular weight, latent complex that must be processed to a lower molecular weight, biologically active form. A number of molecules are involved in this activation step including the mannose 6-phosphate/insulin-like growth factor- II receptor, tissue transglutaminase, thrombospondin, plasmin, and others. Here we describe a rapid macrophage-based system for TGF- 1 activation, which could be used for screening potential anti- fibrotic agents. The system employs transformed mouse peritoneal macrophages treated with lipopolysaccharide as a cell line capable of activating latent TGF-. The activation mechanism in our system involves mannose 6-phosphate/insulin-like growth factor-II receptor andtransglutaminase. The activation of latent TGF- in this system can be prevented by the addition of mannose-6-phosphate but not mannose-1-phosphate. In addition, transglutaminase inhibitors, antibodies to thrombospondin, insulin-like growth factor- II in the presence of its binding protein IGFBP-2, but not IGFBP-1, suppressed the activation of TGF-. Anti-inflammatory molecules, such as hydrocortisone, when added to LPS-treated macrophages, inhibited TGF- activation by a mechanism, that may involve downregulation of transglutaminase expression. In summary, this new, rapid and reproducible system allows testing molecules for their ability to inhibit TGF- activation, thus providing a screening method for potential anti-scarring molecules.     

The effect of matrix stiffness on the differentiation of mesenchymal stem cells in response to TGF-β

Bone marrow mesenchymal stem cells (MSCs) are a valuable cell source for tissue engineering and regenerative medicine. Transforming growth factor β (TGF-β) can promote MSC differentiation into either smooth muscle cells (SMCs) or chondrogenic cells. Here we showed that the stiffness of cell adhesion substrates modulated these differential effects. MSCs on soft substrates had less spreading, fewer stress fibers and lower proliferation rate than MSCs on stiff substrates. MSCs on stiff substrates had higher expression of SMC markers α-actin and calponin-1; in contrast, MSCs on soft substrates had a higher expression of chondrogenic marker collagen-II and adipogenic marker lipoprotein lipase (LPL). TGF-β increased SMC marker expression on stiff substrates. However, TGF-β increased chondrogenic marker expression and suppressed adipogenic marker expression on soft substrates, while adipogenic medium and soft substrates induced adipogenic differentiation effectively. Rho GTPase was involved in the expression of all aforementioned lineage markers, but did not account for the differential effects of substrate stiffness. In addition, soft substrates did not significantly affect Rho activity, but inhibited Rho-induced stress fiber formation and α-actin assembly. Further analysis showed that MSCs on soft substrates had weaker cell adhesion, and that the suppression of cell adhesion strength mimicked the effects of soft substrates on the lineage marker expression. These results provide insights of how substrate stiffness differentially regulates stem cell differentiation, and have significant implications for the design of biomaterials with appropriate mechanical property for tissue regeneration.     

The controlled release of vancomycin in gelatin/β-TCP composite scaffolds

Osteomyelitis remains a difficult infection to treat for orthopaedic surgeons regardless of the continuous advances in surgical techniques and antimicrobial agents. The controlled release of vancomycin from local delivery system is a promising method for eliminating infection. In this study, biodegradable gelatin sponge containing different contents of β-tricalcium phosphate ceramic (β-TCP) was prepared for the controlled-release of vancomycin. We aimed to confirm the composite scaffolds could be used as a vancomycin sustained-release system. Examinations of scanning electron microscopy, Fourier transform infrared spectroscopy, mechanical properties, and in vivo drug release were performed. The results showed that the composite scaffolds could achieve local therapeutic drug levels over an extended duration. Taking consideration of porosity, interconnection, mechanical properties, and controlled release performance, the composite gelatin scaffold containing 30% β-TCP granules may be a good candidate for the controlled release of vancomycin in the treatment of chronic osteomyelitis.     

Downregulation of TGF-βRII in T effector cells leads to increased resistance to TGF-β-mediated suppression of autoimmune responses in type I diabetes

Tregs play an important role in controlling immune responses, particularly autoimmunity. In NOD mouse model, an excellent model for autoimmune diabetes, transfer of Tregs was shown to prevent diabetes, whereas depletion of Tregs in vivo enhanced disease progression, suggesting that Treg dysfunction contributes to the pathogenesis of diabetes. However, the mechanisms leading to Treg dysfunction and their role in diabetes progression has remained unclear. In this study we assessed quantitative and qualitative changes in Tregs during the development of autoimmune diabetes in NOD. We compared female NOD with males that have similar predisposition to but a lower incidence of diabetes and found that Treg numbers remained unchanged between 6 to 16 weeks of age in both groups. Although female Tregs produced lower TGF-β compared to male, regulatory function of female Tregs was only marginally inferior to male upon GAD65 autoantigen stimulation. GAD65-reactive female Teffectors were more responsive and progressively became refractory to regulation compared to male effectors, in part due to lower expression of TGF-β RII, accounting for reduced sensitivity to Tregs. Moreover, we unexpectedly found that TGF-β suppressed IFN-γ production to GAD65 antigen in male, not in female responders. These data suggest that TGF-β plays a major role in Teff resistance to regulation and Treg dysfunction, and may account for autoimmune diabetes. Our study implies that development of a successful supplemental Treg therapy for halting autoimmunity may require further understanding of Teff responses to regulation in order to generate highly effective Tregs.     

Downregulation of TGF-βRII in T effector cells leads to increased resistance to TGF-β-mediated suppression of autoimmune responses in type I diabetes

Tregs play an important role in controlling immune responses, particularly autoimmunity. In NOD mouse model, an excellent model for autoimmune diabetes, transfer of Tregs was shown to prevent diabetes, whereas depletion of Tregs in vivo enhanced disease progression, suggesting that Treg dysfunction contributes to the pathogenesis of diabetes. However, the mechanisms leading to Treg dysfunction and their role in diabetes progression has remained unclear. In this study we assessed quantitative and qualitative changes in Tregs during the development of autoimmune diabetes in NOD. We compared female NOD with males that have similar predisposition to but a lower incidence of diabetes and found that Treg numbers remained unchanged between 6 to 16 weeks of age in both groups. Although female Tregs produced lower TGF-β compared to male, regulatory function of female Tregs was only marginally inferior to male upon GAD65 autoantigen stimulation. GAD65-reactive female Teffectors were more responsive and progressively became refractory to regulation compared to male effectors, in part due to lower expression of TGF-β RII, accounting for reduced sensitivity to Tregs. Moreover, we unexpectedly found that TGF-β suppressed IFN-γ production to GAD65 antigen in male, not in female responders. These data suggest that TGF-β plays a major role in Teff resistance to regulation and Treg dysfunction, and may account for autoimmune diabetes. Our study implies that development of a successful supplemental Treg therapy for halting autoimmunity may require further understanding of Teff responses to regulation in order to generate highly effective Tregs.     

Grass carp TGF-β1 impairs IL-1β signaling in the inflammatory responses: Evidence for the potential of TGF-β1 to antagonize inflammation in fish

In the present study, effects of TGF-β1 on IL-1β signaling during inflammatory response were examined in grass carp. In grass carp head kidney leukocytes (HKLs), LPS significantly induced the mRNA expression of grass carp TGF-β1 (gcTGF-β1) and IL-1β, indicating the involvement of TGF-β1 and IL-1β in inflammatory process. Using anti-IL-1β antibody to neutralize the endogenous IL-1β, we found that stimulation of IL-1β mRNA expression by LPS was independent on IL-1β itself. Interestingly, recombinant gcTGF-β1 (rgcTGF-β1) suppressed basal and LPS-stimulated IL-1β mRNA expression in spite of immunoneutralizing endogenous IL-1β or not. Given that IL-1β receptor signaling molecule and natural IL-1β inhibitors are the important regulators in IL-1β signaling and activity, the effect of LPS on these molecules' expression was determined in HKLs. Results showed that LPS significantly enhanced the mRNA levels of IL-1 receptor type I (IL-1RI) and II (IL-1RII), IL-1R accessory protein (IL-1Racp) and novel IL-1 family member (nIL-1F). Moreover, the induction of IL-1RII, IL-1Racp and nIL-1F by LPS was IL-1β-dependent since IL-1β immunoneutralization abolished these inductions, implying the involvement of IL-1β auto-induction in these effects. Consistently, TGF-β1 could block basal IL-1RI and nIL-1F mRNA expression, and LPS-induced IL-1RI, IL-1Racp and nIL-1F mRNA expression, suggesting these molecules as the regulatory sites for TGF-β1 to modulate IL-1β signaling. Subsequent in vivo studies showed that bacterial challenge significantly up-regulated IL-1β mRNA expression with a rapid and transient pattern and TGF-β1 mRNA expression with a relatively time-delayed kinetics in head kidney. These expression patterns coincide with their pro-inflammatory and anti-inflammatory roles, respectively. As expected, rgcTGF-β1 could suppress bacterial-induced IL-1β mRNA expression, strengthening the anti-inflammatory role of TGF-β1 in vivo. Taken together, these results to our knowledge provide the first evidence for inducible TGF-β1 expression in inflammatory process, as well as the induction of inflammatory stimuli on IL-1β expression and signaling. In turn, TGF-β1 suppressed the proinflammatory process in vitro and in vivo presumably via interfering IL-1β expression and signaling in inflammatory response, highlighting the potential of TGF-β1 in the control of inflammation in fish.     

Improvement of the yields of recombinant actin and myosin V–HMM in the insect cell/baculovirus system by the addition of nutrients to the high-density cell culture

Baculovirus infection of Sf9 cells at high densities, such as during mid- and late exponential phase, often results in a significant reduction of protein yield per cell, compared to the early exponential phase. Nutrient depletion has been considered as a major cause for the decreased protein yield. In this study, we report that the addition of nutrients (glucose, yeastolate ultrafiltrate, and lactalbumin hydrolysate) and small fraction of fresh medium at time of infection restores the expression level of actin and myosin V?CHMM at late exponential phase (11.3?×?10⁶?cells/ml) to that at early exponential phase (1.0?×?10⁶?cells/ml). The relative yields of actin and myosin V?CHMM were approximately equal at both phases (typically 200?mg of actin and 5?mg of myosin V?CHMM per 10¹⁰?cells), i.e., the volumetric yield of proteins from the cell culture at late exponential phase was approximately tenfold higher than at early exponential phase. The functionality of the recombinant actin and myosin V?CHMM was confirmed by measuring the rate of actin polymerization, actin-activated ATPase, and the gliding velocity of actin filaments in an in vitro motility assay.     

Dual release of dexamethasone and TGF-β3 from polymeric microspheres for stem cell matrix accumulation in a rat disc degeneration model

Low back pain is frequently caused by nucleus pulposus (NP) degeneration. Tissue engineering is a powerful therapeutic strategy which could restore the normal biomechanical motion of the human spine. Previously we reported that a new nanostructured three-dimensional poly(lactide-co-glycolide) (PLGA) microsphere, which is loaded with dexamethasone and growth factor embedded heparin/poly(l-lysine) nanoparticles via a layer-by-layer system, was an effective cell carrier in vitro for NP tissue engineering. This study aimed to investigate whether the implantation of adipose-derived stem cell (ADSC)-seeded PLGA microspheres into the rat intervertebral disc could regenerate the degenerated disc. Changes in disc height by plain radiograph, T2-weighted signal intensity in magnetic resonance imaging (MRI), histology, immunohistochemistry and matrix-associated gene expression were evaluated in normal controls (NCs) (without operations), a degeneration control (DC) group (with needle puncture, injected only with Dulbecco’s modified Eagle’s medium), a PLGA microspheres (PMs) treatment group (with needle puncture, PLGA microspheres only injection), and PLGA microspheres loaded with ADSCs treatment (PMA) group (with needle puncture, PLGA microspheres loaded with ADSC injection) for a 24-week period. The results showed that at 24 weeks post-transplantation, the PM and PMA groups regained disc height values of ～63% and 76% and MRI signal intensities of ～47% and 76%, respectively, compared to the NC group. Biochemistry, immunohistochemistry and gene expression analysis also indicated the restoration of proteoglycan accumulation in the discs of the PM and PMA groups. However, there was almost no restoration of proteoglycan accumulation in the discs of the DC group compared with the PM and PMA groups. Taken together, these data suggest that ADSC-seeded PLGA microspheres could partly regenerate the degenerated disc in vivo after implantation into the rat degenerative intervertebral disc.     

The Type VI secretion system – a widespread and versatile cell targeting system

The Type VI secretion system (T6SS) is the most recently described of the Gram-negative bacterial secretion systems and is widely distributed amongst diverse species. T6SSs are currently believed to be complex molecular machines which inject effector proteins into target cells and which incorporate a bacteriophage-like cell-puncturing device. T6SSs have been implicated in eukaryotic cell targeting and virulence in a range of important pathogens. More recently, ‘antibacterial’ T6SSs have been reported, which are used to efficiently target competitor bacterial cells by the injection of antibacterial toxins. Although it is clear that T6SSs can be deployed as versatile weapons to compete with other bacteria or attack simple or higher eukaryotes, much remains to be determined about this intriguing system.     

Human peritoneal mesothelial cell transformation into myofibroblasts in response to TGF-ß1 in vitro

Peritoneal dissemination is one of the leading causes of death in gastric cancer patients. The interaction between carcinoma cells and the peritoneal lining may play a key role in tumor peritoneal dissemination. Human peritoneal mesothelial cells are a monolayer of squamous epithelial cells covering the peritoneal cavity and forming serosal membranes. The precise role of mesothelial cells in the peritoneal dissemination of gastric cancer remains to be identified. Expression of TGF-?1, a cytokine known for its capacity to induce proliferative and transformative changes in cells, has been correlated with peritoneal metastasis and TNM stages of gastric cancer. High levels of TGF-?1 in the subperitoneal milieu may play a key role in the transition of normal mesothelial cells to myofibroblasts. Here, we demonstrate that mesothelial cells activated by TGF-?1 undergo epithelial-mesenchymal transition (EMT) and that the transition of mesothelial cells to myofibroblasts is dependent on Smad2 signaling. EMT of mesothelial cells was marked by up-regulation of α-smooth muscle actin and vimentin expression. Cytokeratin and E-cadherin expression decreased over time in transformed mesothelial cells. Knockdown of Smad2 gene by siRNA silencing significantly suppressed the transition of mesothelial cells to myofibroblasts. We conclude that when exposed to TGF-?1 mesothelial cells undergo EMT which involves Smad2 signaling. Furthermore, mesothelial cells may be the possible source of myofibroblasts in peritoneal fibrosis and provide a favorable environment for the dissemination of gastric cancer.     

Butyrophilin 3A 1 presents phosphoantigens to human yδ T cells： the fourth model of antigen presentation in the immune system

Tlymphocytes are major players in immunity, providing protectionagainst pathogenic microorganisms and tumors. They achieve this goal because they express clonally distributed recep- tors （T-cell receptor, TCR） on their sur- face capable of recognizing antigens displayed on the surface of specialized antigen-presenting cells, in association with antigen presenting molecules.1     

Hepatitis C virus-induced furin and thrombospondin-1 activate TGF-β1: role of TGF-β1 in HCV replication

In this study, we demonstrated the molecular mechanisms of TGF-β1 induction as well as proteolytic activation in HCV (JFH-1)-infected cells. Our studies showed the synthesis and secretion of TGF-β1 in HCV-infected cells which was reduced in the presence of Ca²⁺ chelators, an inhibitor of mitochondrial Ca²⁺ uptake, and antioxidants. We also showed that the expression of HCV NS proteins NS3/4A, and NS5A can induce TGF-β1 by cell-based luciferase assay. Furthermore, mutational analysis revealed that the functionally active protease domain of NS3 and N-terminus domain of NS5A are required for TGF-β1 activity. Using siRNA approach we demonstrated that HCV-induced furin and thrombospondin-1 (TSP-1) are involved in the proteolytic activation of TGF-β1. Our results also suggest that TGF-β1 positively regulates HCV RNA replication. Collectively, these observations provide insight into the mechanism of TGF-β1 activation, which likely manifest in liver fibrosis associated with hepatitis C infection.     

TGF-β1 and IGF-1 influence the re-differentiation capacity of human chondrocytes in 3D pellet cultures in relation to different oxygen concentrations

To prevent de-differentiation of chondrocytes in vitro, the 3D environment, growth factors and different oxygen concentrations were considered. In this in vitro study, we quantified the influence of insulin-like growth factor (IGF)-1 and/or transforming growth factor (TGF)-β1 under differing oxygen (5/21% O(2)) levels on the proliferation and synthesis rates of hyaline extracellular matrix (ECM) components in chondrogenic pellet cultures. Human chondrocytes isolated from articular cartilage were transferred into conical tubes to form pellets. Pellets were stimulated with TGF-β1 and/or IGF-1. After 2 and 5 weeks of cultivation the DNA concentration and expression of pro-collagen type 1, type 2 and aggrecan were analysed. Under hypoxia the DNA content remained stable. In contrast, under normoxia, cells showed an increase of DNA concentration after stimulation with TGF-β1/IGF-1 and TGF-β1. Nevertheless, DNA contents under normoxia did not reach the values of hypoxic-cultivated cells. Under both culture conditions a reduced synthesis of pro-collagen type 1 could be determined. Although the expression of pro-collagen type 2 was significantly higher under normoxia, a decrease in the case of TGF-β1/IGF-1- and IGF-1-stimulated cells was observed. Under hypoxia pro-collagen type 2 contents remained stable or increased for TGF-β1/IGF-1-stimulated cells. Furthermore, incubation with growth factors resulted in aggrecan accumulation under hypoxia, while a reduced expression under normoxia could be determined for TGF-β1/IGF-1- and IGF-1-stimulated cells. Our results demonstrate that the treatment with growth factors causes differences in the expression of ECM compounds within pellet cultures. While under normoxia TGF-β1 alone leads to a positive effect of the expression of hyaline cartilage-specific ECM components, an additive effect of both growth factors was only determined under hypoxia.     

Large-scale production of functional recombinant CAR in a baculovirus- insect cell system

Coxsackievirus group B and adenovirus receptor (CAR) is a major receptor for the adenovirus groups that has drawn overall attention over the past decade. Although this protein could potentially be used as an agent for the blocking of adenovirus infection, large-scale production of highly purified human CAR in eukaryotic expression system has not been reported. In the present study, we showed the construction of recombinant baculovirus highly-expressing the extracellular domain of human coxsackievirus-adenovirus receptor (exCAR) in High Five insect cells. The recombinant exCAR was recovered from the cell culture medium as a secreted soluble protein and purified by Ni-NTA affinity chromatography. The final yield of recombinant exCAR was about 8-10 mg/l of supernatant with the purity of 96.3%. Binding activity assay showed that the recombinant exCAR exhibited an intact ability of binding to the knob domain of the adenovirus type 5 fiber protein (Ad fiber knob) displayed by T7 phage. These results showed that the recombinant human exCAR produced in insect cells and purified by Ni-NTA chromatography retained its ability to bind to the Ad fiber knob and could potentially be used in therapy of adenovirus infection.