Effects of cytokines on gingival fibroblasts in vitro are modulated by the extracellular matrix

Fibroblast function in gingival tissue is thought to be regulated by the local cellular environment – both the extracellular matrix and soluble factors. In an attempt to artificially re-create this situation fibroblasts have been cultured within 3-dimensional collagen gels in an environment more physiologically comparable to connective tissue. Using such a model we investigated the effects of the extracellular matrix on gingival fibroblast growth and synthetic activity and on the cellular responsiveness to 4 soluble factors – epidermal growth factor (EGF), platelet-derived growth factor (PDGF), transforming growth factor-beta (TGF- β ₁) and interleukin-1 β (IL-1 β ). Fibroblasts cultured within collagen gels showed similar growth rates, an increased production of collagen but reduced levels of hyaluronan synthesis in comparison to cells in monolayer culture. Cellular responsiveness to soluble mediators was also modulated by the collagen matrix, with a generalised reduction in response by cells embedded within the matrix. The stimulatory effects of EGF and PDGF on cell growth in monolayer over a 14-day period were only found during the initial stages of culture within gels. Similarly the stimulation of matrix production by cells induced by TGF- β ₁, on plastic was reduced or even negated when cells were cultured in collagen gels. On plastic IL-1 β significantly stimulated cell growth but had no effect on either collagen or hyaluronan production by fibroblasts. In gel cultures, this cytokine had no effect on cell proliferation, but significantly inhibited both collagen and hyaluronan synthesis. These findings further illustrate the usefulness of fibroblast-populated collagen gels as a model system for studying the modulatory effects of soluble factors and extracellular matrix molecules on fibroblast function in vitro .     

Human dermal and gingival fibroblasts in a three-dimensional culture: a comparative study on matrix remodeling

Free-floating collagen lattice is considered a useful tool for assessing wound healing in vitro. This work compared extracellular matrix remodeling in collagen lattices populated by gingival or dermal fibroblasts. For 21 days we followed gel contraction and changes in cell number of collagen lattices seeded with l.5 x 10(5) fibroblasts of each tissue. We also used indirect immunodetection to study extracellular matrix components, metalloproteinases (MMPs), and their tissues inhibitors (TIMPs). In addition, the presence of MMPs and TIMPs in the culture media was analyzed by zymography and western blotting. No significant difference was found concerning gel contraction and changes in cell number. We observed the early expression of fibrillin I and collagen type III, apparently codistributed and at the end of the gel contraction their disappearance. Concomitantly we demonstrated the expression of MMPs and TIMPs, initially localized in cellular cytoplasm, then spreading in the extracellular compartment, and even found in the culture medium. This remodeling was more rapid and intense with gingival fibroblasts than dermal fibroblasts. In conclusion, gingival fibroblasts seem more efficient at remodeling the connective tissue than dermal fibroblasts and could lead to the better wound healing observed in vivo.     

Dissolution of type I collagen fibrils by gingival fibroblasts isolated from patients of various periodontitis categories

The classification of periodontitis in various disease categories, including juvenile periodontitis, rapidly progressive adult periodontitis and slowly progressive adult periodontitits is based mainly on differences in disease progresssion and age group susceptibility. Because dissolution of collagen fibers is an integral part of periodontal attachment loss, we investigated whether the clinical differences among these periodontitis/control groups are reflected in the collagen-degrading activity of gingival fibroblasts isolated from affected tissues. All fibroblast strains isolated from the 4 groups ( n =48) displayed cell-associated collagenolytic activity when seeded in contact with a reconstituted film of type I collagen fibrils. Cells from the control group ( n =14) dissolved the collagen fibril film twice as fast as those from each of the 3 disease groups (juvenile periodontitis ( n =13), rapidly progressive adult periodontitis ( n =7), and slowly progressive adult periodontitits ( n =14)). Both interleukin-1β and phorbolester accelerated the rate of dissolution 2–4-fold, but even after cytokine or phorbolester stimulation control cells were still considerably more effective in dissolving the collagen fibrils than cells from the disease groups. The observation made in this study, that dissolution of collagen fibrils by gingival fibroblasts from periodontally diseased individuals is significantly slower than by cells from healthy control subjects, challenges disease paradigm: based on a direct relationship between collagenolytic potential and disease activity.     

Interleukin-1 stimulates proteoglycan and hyaluronic acid production by human gingival fibroblasts in vitro

The effect of recombinant interleukin 1β [IL-1β] on proteoglycan and hyaluronic acid synthesis by human gingival fibroblasts has been investigated. It was found to stimulate gingival fibroblast proliferation in a dose dependent fashion with the midpoint of this response being in the 10⁻¹¹ mol/L range. At a concentration of 10⁻¹¹ mol/L, IL-1β stimulated proteoglycan synthesis by 40 per cent. Although IL-1β can stimulate cell proliferation and prostaglandin synthesis, its effect on proteoglycan synthesis was independent of these parameters. The kinetics of proteoglycan degradation in the presence or absence of IL-1β was monitored by pulse chase experiments and were found not to differ between treated and untreated cultures. The molecular size and carbohydrate composition of the proteoglycans was not affected by IL-1β. Additional studies revealed the synthesis of hyaluronic acid was also stimulated by IL-1β. As for the proteoglycans, inhibition of cell proliferation did not affect the stimulatory effect of IL-1β. However, blockage of prostaglandin synthesis abolished the stimulatory effect of IL-1β on hyaluronic acid synthesis. The effect of IL-1β on hyaluronic acid synthesis was found to be related to elevated levels of the enzyme hyaluronate synthetase. Molecular size analysis of newly synthesized hyaluronic acid revealed that cells treated with IL-1β synthesized more large molecular mass hyaluronic acid. Taken together, these findings are considered to reflect the ability of gingival fibroblasts to respond to inflammatory mediators in a manner indicative of early tissue repair.     

Chlorhexidine-induced changes to human gingival fibroblast collagen and non-collagen protein production

BACKGROUND: Chlorhexidine (CHX) has been used extensively as an adjunctive therapy in the treatment of periodontal disease. It is well known that chlorhexidine is toxic to bacteria, but recent evidence has suggested that chlorhexidine may also have deleterious effects on gingival fibroblast proliferation as well as collagen and non-collagen protein production in cell culture. The purpose of this study was to examine the effects of chlorhexidine on gingival fibroblast proliferation as well as collagen and non-collagen protein production in cell culture. METHODS: Human gingival fibroblasts were incubated in MEM containing chlorhexidine concentrations ranging from 1 microM to 1300 microM at 37 degrees C for 1, 5, or 15 minutes. Control cells received an equal volume of MEM without chlorhexidine for similar times at 37 degrees C. Following incubation, the media were removed, cells washed twice with MEM supplemented with 10% FBS, and fibroblasts in treatment and control groups were allowed to recover in the same media for 24 hours. RESULTS: In all strains, cellular proliferation was dependent on the concentration of solubilized chlorhexidine in cell culture but independent of the duration of chlorhexidine exposure. The average inhibitory concentration necessary to reduce cellular proliferation by 50% (ID50) was 222.1 microM. In regard to collagen and non-collagen protein production, fibroblasts exposed to chlorhexidine concentrations (1 microM) well below the ID50 had a 65% reduction in collagen production and a 57% reduction in noncollagen protein production. CONCLUSIONS: These results suggest that chlorhexidine will induce a dose dependent reduction in cellular proliferation and that concentrations of chlorhexidine that have little effect on cellular proliferation can significantly reduce both collagen and noncollagen protein production of human gingival fibroblasts in vitro. Hence, the introduction of commercially available concentrations (0.12%) or diluted commercial concentrations (as low as 0.00009%) of chlorhexidine to surgical sites for short periods of time prior to wound closure can conceivably have serious toxic effects on gingival fibroblasts and may negatively affect wound healing.     

Matrix metalloproteinase-3 differences in oral and skin fibroblasts

While skin wounds heal by scarring, wounds of oral mucosa show privileged healing with minimal scar formation. Our hypothesis was that phenotypic differences between oral and skin fibroblasts underlie these differences in healing. The aims of this study were to compare MMP-3 expression by oral and skin fibroblasts and investigate a role for MMP-3 in mediating collagen gel contraction. Oral fibroblasts induced significantly greater gel contraction than did paired skin cells. Inhibition of MMP activity significantly inhibited gel contraction by both cell types. Specific inhibition of MMP-3 activity reduced gel contraction by oral, but not skin, fibroblasts. Oral fibroblasts produced significantly higher levels of MMP-3 than did skin fibroblasts at all levels studied. TGF-beta1 and -beta3 isoforms stimulated MMP-3 expression at mRNA, protein, and activity levels by both fibroblast populations. Results suggest that increased MMP-3 production by oral fibroblasts may underlie the differences in wound-healing outcome seen in skin and oral mucosa.     

Interleukin-1β stimulates collagenase production by cultured human periodontal ligament fibroblasts

To examine the effects of interleukin-lβ (IL-1β) on collagenase production by human periodontal ligament fibroblasts (PLF) and gingival fibroblasts (GF) in Culture, collagenase activity in conditioned media was determined using a novel procedure that circumvented interference by enzyme inhibitors. Fibroblasts obtained from five paired periodontal ligament and gingival tissues were cultured for two weeks, and then incubated for a further 72 h in α-MEM supplemented with various concentrations of IL-1β (0 to 1250 pg/ml). The conditioned media from individual cultures were harvested and treated with dithiothreitol to inactivate TIMPs, and then with APMA, to activate the latent collagenase. Collagenase activity was measured fluorometrically using FITC-collagen as a substrate. IL-lβ induced a ∼2.4 to 5.2-fold increase in collagenase activity in PLF compared to a ∼1.4 to 2.2-fold increase in GF. These results are in contrast to previous studies in which collagenase activity was measured in the presence of TIMPs, and indicate that PLF are more sensitive to IL-1β than GF. Since both PLF and GF are present in periodontal lesions, it is possible that collagenase secretion stimulated by exposure to inflammatory cell products such as IL-lβ may participate in the destruction of collagen fibers involved in periodontal attachment.     

Porphyromonas gingivalis induction of mediator and cytokine secretion by human gingival fibroblasts

We hypothesized that bacterial viability and strain characteristics of Porphyromonas gingivalis could affect the induction of pro-inflammatory mediator secretion by human gingival fibroblast cultures. Both killed and viable P. gingivalis elicited production of prostaglandin E2, interleukin-1 beta (IL-1 beta), IL-6 and IL-8, although killed P. gingivalis induced generally higher levels, particularly IL-6 and IL-8, compared with the viable bacteria. P. gingivalis strains, which exhibited wild-type levels of trypsin-like protease activity, stimulated human gingival fibroblasts to secrete increased levels of prostaglandin E2 and IL-1 beta, although minimal levels of IL-6 and IL-8 were noted in supernatants from the gingival fibroblast cells. P. gingivalis strains BEI and NG4B19, which have either decreased or undetectable levels of trypsin-like protease, respectively, induced significantly greater IL-6 and IL-8 levels in gingival fibroblast cultures compared with the other strains. The ability of antibody to P. gingivalis to alter human gingival fibroblast production of pro-inflammatory mediators was tested using nonhuman primate antisera. Both immune and nonimmune sera altered the P. gingivalis-generated pattern of mediators from the gingival fibroblasts. We conclude that: (i) viable and killed P. gingivalis were capable of inducing various pro-inflammatory cytokines from human gingival fibroblasts; (ii) strain differences in cytokine induction were noted, and the expression of a trypsin-like protease activity was related to decreased extracellular levels of IL-6 and IL-8; and (iii) the presence of serum, particularly with specific antibody to P. gingivalis, significantly altered human gingival fibroblast cytokine production compared with P. gingivalis alone.     

Greater Sensitivity of Oral Fibroblasts to Smoked Versus Smokeless Tobacco

Background: Smokers have an increased incidence and severity of periodontal disease. Although cigarette smoke contains >4,000 chemical components that could affect periodontal tissues, less is understood about the effect of smokeless tobacco. Therefore, this study compares the effects of cigarette smoke extract (CSE) and smokeless tobacco extract (STE) on cell survival and motility of periodontal ligament (PDL) and gingival fibroblasts in vitro. Methods: PDL and gingival fibroblasts were exposed to various concentrations of CSE, STE, or nicotine alone. Viable cells were labeled with calcein acetoxymethyl, visualized using fluorescent microscopy, and quantified using a fluorescence multi‐well plate reader. In vitro wounding and collagen gel contraction assays were used to assess cell motility. Results: Both gingival and PDL fibroblasts displayed reduced cell viability with increasing concentrations of CSE and STE. Based on relative nicotine content, CSE was significantly more cytotoxic than STE. PDL fibroblasts were also more sensitive to both CSE and STE compared with gingival fibroblasts. Finally, sublethal doses of CSE reduced cell motility and gel contraction, whereas STE had less effect. Nicotine alone ≤0.5 mM had little to no effect in any of these assays. Conclusions: Many of the underlying effects of tobacco products on periodontal tissues may be due to direct inhibition of normal fibroblast function. CSE is found to be more deleterious to the function of both PDL and gingival fibroblasts than STE. PDL fibroblasts appear to be more sensitive to CSE and STE than gingival fibroblasts. Therefore, cigarette smoke may have more profound effects than smokeless tobacco.     

Synthesis of proinflammatory cytokines by human gingival fibroblasts in response to lipopolysaccharides and interleukin-1β

We have examined the ability of gingival fibroblasts (GF) to participate in inflammatory response and function as accessory immune cells. The accessory immune function of GF cells was evaluated by their ability to elaborate proinflammatory cytokines following stimulation with lipopolysaccharides and interleukin-1β (IL-β). Using three separate clonally derived and characterized human gingival fibroblast (GF) cell lines, we demonstrate that LPS from Actinobacillus actinomycetemcomitans (Aa) and Escherichia coli (Ec) induce mRNA and synthesis of proinflammatory cytokines, IL-1β, IL-6 and IL-8. IL-1β activation of GF cells showed that IL-1β not only induces the expression of IL-6, IL-8 and TNF-α, but also acts in an autocrine manner on GF cells and induces IL-1βexpression. Furthermore, the continuous presence of IL-1β in GF cell cultures did not down regulate the response of GF cells to IL-1β. Pretreatment of GF cells with IL-lβ resulted in the enhanced synthesis of TNF-α in response to additional IL-lβ. These findings indicate that GF cells, in addition to providing structural support, may also function as accessory immune cells and play an important role in the initial inflammatory reaction as well as in the amplification of immune response.     

Gingival fibroblast response to cyclosporin A and transforming growth factor β1

This study investigates a potential role for TGFβ₁ in the pathogenesis of cyclosporin A-induced gingival overgrowth (CsA-OG). TGFβ₁ was localized immunohistochemically in the connective tissue of both normal gingiva and CsA-OG. Intense staining for TGFβ₁ was detected at the tips of the dermal papillae of the overgrown gingiva. In addition, fibroblasts derived from healthy gingiva and fibroblasts derived from CsA-OG were cultured both as monolayers or embedded in a 3D-collagen gel. Fibroblast activity was monitored in terms of protein and collagen production in the presence of (i) 1 ng/ml TGFβ₁ (ii) 500 ng/ml CsA, or (iii) 500 ng/ml CsA and 1 ng/ml TGFβ₁. In monolayer culture TGFβ₁ significantly increased protein and collagen production in all cell strains (p<0.05); however, there was no difference in response between fibroblasts from overgrown and healthy tissue. The production of both protein and collagen was significantly lower in the presence of the combination of CsA and TGFβ₁ when compared with the maximal stimulation produced by TGFβ₁ alone. In gel, TGFβ₁ significantly elevated matrix production by all overgrown cell strains (p<0.05) but had little or no effect on the normal cell strains. The combination of CsA and TGFβ₁ in gel cultures reduced protein and collagen production by overgrown cell strains compared with TGFβ¹ alone. It is concluded that the cellular activity of gingival fibroblasts is dependant on culture conditions and that fibroblasts derived from overgrown gingival tissue are more responsive to TGFβ₁ than normal gingival fibroblasts when cultured in type I collagen gel.     

Prostaglandin E2 secretion from gingival fibroblasts treated with interleukin-1β: effects of lipid extracts from Porphyromonas gingivalis or calculus

Complex lipids of Porphyromonas gingivalis have been identified in lipid extracts from calculus-contaminated root surfaces and in diseased gingival tissues. However, little is known about the biological effects of these complex lipids on host cells. The purpose of this study was to evaluate the effects of P. gingivalis or calculus lipids on prostaglandin secretion from gingival fibroblasts. Lipids were extracted from paired subgingival plaque and teeth samples, and calculus-contaminated root surfaces before and after scaling and root planing, in order to determine the relevant levels of lipid extracts for the treatment of gingival fibroblasts in culture. Primary cultures of gingival fibroblasts were exposed to lipid extracts from either P. gingivalis or calculus/teeth for a period of 7 days. Control and lipid-treated cultures were exposed to human recombinant interleukin-1β for 48 h and prostaglandin secretion from interleukin-1β-treated fibroblasts was compared with control and lipid-treated fibroblasts without interleukin-1β treatment. These experiments demonstrated that P. gingivalis lipids or calculus-tooth lipids potentiate interleukin-1β-mediated prostaglandin secretory responses from gingival fibroblasts. Additionally, P. gingivalis or calculus-tooth lipid extracts were readily taken up by gingival fibroblasts as measured by bacterial fatty acid recovery in lipid extracts of cultured fibroblasts. These results indicate that bacterial lipid penetration into gingival tissues in combination with a chronic inflammatory response may substantially potentiate prostaglandin secretion from gingival fibroblasts, thereby promoting tissue destructive processes associated with adult periodontitis.     

The effects of chlorhexidine digluconate on human fibroblasts in vitro.

The drug chlorhexidine has been widely utilized as a wound antiseptic and oral antimicrobial rinse. There have been numerous reports on its safety as an oral rinse, but its effects on wound healing have been contradictory. The present study utilized human fibroblasts derived from skin and oral tissues to test the effects of chlorhexidine on viability, growth, collagen gel contractions, and total protein synthesis. Cells were exposed for an hour to 0.005% and 0.002% chlorhexidine and for 30 seconds to 0.12% chlorhexidine. Our results indicate that a 0.002% concentration of the drug shows minimal cytotoxicity, but is able to suppress cell division almost completely. Collagen gel contraction, as a model of wound contraction, was also severely affected by all of the concentrations of chlorhexidine used. Total protein synthesis was suppressed by chlorhexidine in collagen gel culture. The data support the hypothesis that chlorhexidine is highly cytotoxic to cells in vitro, but various cell functions such as proliferation, collagen gel contraction, and protein synthesis are affected to different degrees by the drug.     

TGF-β1 influences early gingival wound healing in rats: an immunohistochemical evaluation of stromal remodelling by extracellular matrix molecules and PCNA

The effect of topically applied transforming growth factor β1 (TGF - β1) on the rat gingival wound healing process after flap surgery was evaluated by immunohistochemistry for extracellular matrix molecules (ECM), such as tenascin, heparan sulfate proteoglycan (HSPG) and type IV collagen, and for proliferating cell nuclear antigen (PCNA) in fibroblasts. TGF-β1 solution was applied to the surgical wound experimental sites. Two μg/μl were applied at the time of the operation, and 1 μg/μl at days 1 and 2 after surgery, with contralateral control sites receiving the vehicle alone. Periodontal tissues were histologically examined at 3 and 7 days post-surgery. Tenascin was found to be more strongly stained in the granulation tissue from experimental sites at 3 days post-surgery. At 7 days post-surgery, HSPG-positive areas in granulation tissue had become smaller and there was a prominent proliferation of PCNA-positive fibroblast-like cells and type IV collagen-positive blood vessels. These results suggest that TGF-β1 applied to surgical wounds influences early proliferation of gingival fibroblast-like cells, the formation of blood vessels, and ECM remodelling. In conclusion, TGF-β1 application appears to promote granulation tissue formation in periodontal wound healing.     

Subpopulations of fetal-like gingival fibroblasts: characterisation and potential significance for wound healing and the progression of periodontal disease

Wound healing in the adult is commonly compromised by excessive scar formation. In contrast, fetal wound healing is a regenerative process characterised by the conspicuous absence of scarring. Available evidence suggests that phenotypic differences between fetal and adult fibroblasts are important determinants of these distinct modes of tissue repair. In this context, a number of groups (including our own) have documented differences between fetal and adult fibroblasts with respect to such potentially relevant characteristics as migratory activity, motogenic response to cytokines and the synthesis of motility factors, cytokines and matrix macromolecules. The oral mucosa appears to be a privileged site in the adult in that it continues to display a fetal-like mode of wound healing. Data are presented in this review indicating that a subpopulation of gingival fibroblasts expresses several 'fetal-like' phenotypic characteristics. These observations are discussed in terms of both the continued expression of a fetal-like mode of wound healing in the oral mucosa and the possible differential involvement of distinct fibroblast subpopulations in the progression of periodontal disease.     

Wound healing effects of gingival fibroblasts cultured in animal‐free medium

Oral Diseases (2010) 16 , 438–444 Objective: The purpose of this study was to develop a graft material made of gingival fibroblasts cultured in animal‐free medium (HFDM1). Methods: We examined the effects of human serum (HS) on cell growth and wound healing capability, demonstrated by cytokine production, of gingival fibroblasts cultured in HFDM1. Subsequently, the capability of fibroblasts cultured in HFDM1 with 2% HS to promote the healing of skin defects was evaluated using nude mice. Results: The proliferation of human gingival fibroblasts was increased when HS at a concentration of 0.5–2% was added to HFDM1. Wound healing cytokines, including transforming growth factor‐β, keratinocyte growth factor, hepatocyte growth factor, vascular endothelial growth factor, and IL‐6 produced by gingival fibroblasts were increased by adding 2% HS to HFDM1. In addition, gingival fibroblasts cultured in HFDM1 with 2% HS improved wound healing of mouse skin defects as well as those cultured in Dulbecco’s modified Eagle’s medium with 10% fetal calf serum. Conclusion: Gingival fibroblasts cultured in HFDM1 with 2% HS may be useful as a graft material for reconstruction.     

Effect of phenytoin on interleukin-1β production in human gingival fibroblasts challenged to tumor necrosis factor αin vitro

Effects and interaction of tumor necrosis factor α (TNFα) and the antiepileptic drug phenytoin (PHT) on interleukin-1β (IL-1β) production as well as on prostaglandin E₂ (PGE₂) formation were studied in gingival fibroblasts in vitro. TNFα, in contrast to PHT, dose-dependently stimulated the production of cell-associated IL-1β. The stimulatory effect of TNFα on IL-1β production was accompanied by enhanced PGE₂ formation. When PHT and TNFα were added simultaneously, the drug potentiated the stimulatory effect of TNFα on both IL-Iβ production and PGE₂ formation. The major PHT metabolite, p-HPPH, did not affect IL-1β production, either alone or in combination with TNFα. The production of IL-1β induced by TNFα and the combination of TNFα and PHT was further enhanced in the presence of the prostaglandin endoperoxide (PGH) synthase inhibitors, indomethacin and flurbiprofen. The PHT-mediated enhancement of TNFα-induced IL-1β production and PGE₂ formation in gingival fibroblasts may be an important link in the pathogenesis of gingival overgrowth induced by PHT.     

Histological evaluation of interleukin-1β and collagen in gingival tissue from untreated adult periodontitis

Interleukin-1 beta (IL-1β) may be related to the pathological processes associated with periodontitis, primarily due to its ability to induce collagenase, increase neutrophil chemotaxis, and stimulate bone resorption. This study was designed to histologically quantitate IL-1β positive cells from various histologic fields in untreated gingivitis/early periodontitis (G/EP) versus moderate /severe periodontitis (M/SP) gingival tissues, and associate these with collagen loss. Two gingival biopsies from 8 patients were collected, one from a G/EP site and one from a M/SP site. Mouse monoclonal antibodies in combination with an avidin-biotin-peroxidase system were used to stain for IL-1β, while the van Gieson method was used to stain for collagen in serial sections. Collagen loss in G/EP (35%) and M/SP (52%) fields was consistent with gingivitis and periodontitis, respectively. IL-1β positive cells in combined coronal/sulcular (Co/Su) and apical/sulcular (Ap/Su) fields (nearest the bacterial insult) were significantly more numerous compared to combined coronal/middle (Co/Mi) and apical/middle (Ap/Mi) fields (p < 0.05). While numbers and percentages of IL-1β positive cells were generally higher in M/SP biopsies, differences were not significant. Further, there was no correlation between the number of IL-1β positive cells and percent collagen loss. However, a significant correlation between IL-1β positive cells and corresponding gingival crevicular fluid IL-1β concentrations was noted (r = 0.65, p = 0.01). Through the use of immunohisto-chemistry, this study demonstrated that the presence of IL-lβ+ cells does not appear to have a direct association with collagen loss.     

Cytokine regulation of gingival fibroblast lysyl oxidase, collagen, and elastin

BACKGROUND: Systemic therapy with cyclosporin A, phenytoin, and nifedipine modulates cytokine levels in human gingival tissues. Functional relationships between altered cytokine levels and gingival extracellular matrix production are partially characterized. The present study investigates in cultured human gingival fibroblasts the regulation of lysyl oxidase, alpha-1 type I collagen, and elastin by selected cytokines that are elevated in drug-induced gingival overgrowth tissues. METHODS: Normal human gingival fibroblasts were cultured and then treated with selected cytokines: interleukin (IL)-1beta, IL-6, platelet-derived growth factor (PDGF)-BB, and basic fibroblast growth factor (bFGF or FGF-2). Cells were harvested at intervals, and changes in lysyl oxidase enzyme activity, and in mRNA levels of lysyl oxidase, alpha-1 type I collagen, and elastin were determined. RESULTS: bFGF reproducibly and significantly decreased human gingival fibroblast lysyl oxidase and alpha-1 type I collagen mRNA levels in a dose- and time-dependent manner; 1 nM bFGF reduced lysyl oxidase and collagen mRNA levels to 53% and to less than 10% of control after 48 hours of treatment. Interestingly, bFGF downregulated lysyl oxidase enzyme activity by 10% to 20%. IL-1, IL-6, and PDGF-BB did not significantly regulate lysyl oxidase enzyme activity, or alpha-1 type I collagen, elastin, and lysyl oxidase mRNA levels under the conditions tested. CONCLUSIONS: Previous studies have shown that modulated levels of bFGF occur in gingiva as a result of certain pharmacologic therapies. The present study suggests that modulated levels of bFGF likely influence gingival connective tissue metabolism.     

Increased expression of integrin α2 and abnormal response to TGF-β1 in hereditary gingival fibromatosis

Objective:  To investigate the possible correlation between integrin α1, α2, and β1 expression and excessive collagen synthesis in fibroblasts from 3 unrelated Chinese families with hereditary gingival fibromatosis (HGF).
Design:  Gingival fibroblasts from three Chinese HGF patients and three healthy subjects were included. The expression of α1, α2, and β1 integrin subunits was examined by immunohistochemistry, quantitative PCR, and flow cytometry. We also investigated the effects of transforming growth factor-β1 (TGF-β1) on the expression of these integrin subunits.
Results:  Our results demonstrate that the expression of α2 was significantly higher in HGF fibroblasts compared with control fibroblasts ( P  < 0.01). No significant differences in the expression of α1 and β1 were detected. Furthermore, TGF-β1 promoted the expression of α1 and α2 in fibroblasts from both HGF patients and controls. However, it had a larger effect on the expression of α2 in HGF fibroblasts than in control cells. In contrast, α1 expression was stimulated more in control fibroblasts.
Conclusion:  The increased expression of integrin α2 and the increased response to TGF-β1 of HGF fibroblasts may be related to the excessive collagen deposition in HGF patients.