The systemic administration of gamma interferon inhibits collagen synthesis and acute inflammation in a murine skin wounding model

Topical Application of a Mast Cell Stabilizer Improves Impaired Diabetic Wound Healing

Impaired wound healing in the diabetic foot is a major problem often leading to amputation. Mast cells have been shown to regulate wound healing in diabetes. We developed an indole-carboxamide type mast cell stabilizer, MCS-01, which proved to be an effective mast cell degranulation inhibitor in vitro and can be delivered topically for prolonged periods through controlled release by specifically designed alginate bandages. In diabetic mice, both pre- and post-wounding, topical MCS-01 application accelerated wound healing comparable to that achieved with systemic mast cell stabilization. Moreover, MCS-01 altered the macrophage phenotype, promoting classically activated polarization. Bulk transcriptome analysis from wounds treated with MCS-01 or placebo showed that MCS-01 significantly modulated the mRNA and microRNA profile of diabetic wounds, stimulated upregulation of pathways linked to acute inflammation and immune cell migration, and activated the NF-κB complex along with other master regulators of inflammation. Single-cell RNA sequencing analysis of 6,154 cells from wounded and unwounded mouse skin revealed that MCS-01 primarily altered the gene expression of mast cells, monocytes, and keratinocytes. Taken together, these findings offer insights into the process of diabetic wound healing and suggest topical mast cell stabilization as a potentially successful treatment for diabetic foot ulceration.

Effects of DMSO on a rabbit ear hypertrophic scar model: A controlled randomized experimental study

Dimethyl sulfoxide (DMSO) is an anti-inflammatory, antibacterial, analgesic drug widely used to treat several diseases as reported in the literature. It has a detractive effect on collagen deposition in the abnormal tissue. This study aimed to investigate the possible therapeutic effects of DMSO on hypertrophic scar formation in rabbits. Twenty-four New Zealand male albino rabbits were randomly divided into four groups: control, sham, DMSO, and TRA (triamcinolone acetonide). Except the control group, punch biopsy defects were created on each animal's right ear. Following the hypertrophic scar formation on day 28, intralesional DMSO and triamcinolone acetonide were administered once a week for 4 weeks into these scars of the DMSO and TRA groups, respectively. No therapeutic agent was administered to the control and sham groups. One week after the last injection, ear samples were collected for histopathological, immunohistochemical, and real-time polymerase chain reaction gene expression analyses. Histopathological examination revealed that the epithelium in the DMSO group was thicker than that in the control and TRA groups, but thinner than that in the sham group. Connective tissue thickness and vascularity level of the sham group were higher than those of the control, DMSO, and TRA groups. The collagen type I immunoreactivity level of the sham and TRA groups was higher than those of the control and DMSO groups. The collagen type III immunoreactivity level was higher in the sham group than in all other groups. Collagen type I/type III immunoreactivity ratios were lower in the DMSO group. The alignment of collagen fibers was normal in the DMSO group, but was irregular in the sham and TRA groups. The collagen type I gene expression levels of the DMSO and TRA groups were lower than that of the sham group. Collagen type III and IFN-γ mRNA expression levels were almost similar among the groups. TGF-1β mRNA expression levels were higher in the DMSO and TRA groups than in the control and sham groups. On the basis of the results, it can be concluded that intralesional administration of DMSO decreases hypertrophic scar formation easily and safely.

The time course of cytokine expressions plays a determining role in faster healing of intestinal and colonic anastomatic wounds

OBJECTIVES

Inflammation is critical in the early phases of wound healing. It has been reported previously that small intestinal and colonic wounds display a more rapid healing than those of other organs. However, the underlying mechanism has not yet been elucidated. Here we examined whether differences in the time course of specified cytokine expression, in colonic and small intestinal anastomotic lesions, might play a major role in this observation in comparison to lesions effecting skin and muscle tissue.

MATERIALS AND METHODS

Tissue lesions were applied to 36 male Sprague-Dawley rats. Tissue samples were harvested at 1, 3, 5, 7, and 14 days postoperatively with the levels of TNF-α, IL-6, and IFN-α determined by ELISA-derived methods.

RESULTS

The characteristics of TNF-α, IL-6, and IFN-α expression during the healing process for intestinal and colonic lesions were comparable. However, data differed significantly with that observed during healing of skin and muscle lesions. Intestinal and colonic lesions exhibited a significant and sustained increase in specified cytokine levels on day 5 to day 14 as compared with day 1 and 3. Skin and muscle lesions had random or unaltered cytokine levels throughout the study period.

CONCLUSION

Differences in expression of cytokines TNF-α, IL-6, and IFN-α indicate that these play an important role underlying the more rapid healing processes observed in small intestinal and colonic lesions.

Comparative Evaluation of Anti-Inflammatory Activity of Curcuminoids, Turmerones, and Aqueous Extract of Curcuma longa

Curcuma longa is widely known for its anti-inflammatory activity in traditional system of medicine for centuries and has been scientifically validated extensively. The present study was conducted to evaluate the anti-inflammatory activity of curcuminoids and oil-free aqueous extract (COFAE) of C. longa and compare it with that of curcuminoids and turmerones (volatile oil), the bioactive components of C. longa that are proven for the anti-inflammatory potential. The activity against inflammation was evaluated in xylene-induced ear edema, cotton pellet granuloma models in albino Swiss mice and albino Wistar rats, respectively. The results showed that COFAE of C. longa at three dose levels significantly (P ≤ 0.05) inhibited inflammation in both models, as evidenced by reduction in ear weight and decrease in wet as well as dry weights of cotton pellets, when compared to the vehicle control. The COFAE of C. longa showed considerable anti-inflammatory effects against acute and chronic inflammation and the effects were comparable to those of curcuminoids and turmerones.

Influence of curing agent on fibrosis around silicone implants

Severe capsular contracture around silicone expander breast implants leading to pain and failure is a major clinical problem. Even though earlier studies have implicated the immunogenicity of silicone, the role of physical and chemical properties of the silicone material in excessive collagen deposition and fibrosis has been less addressed. The present study investigates whether there is any correlation between the type of curing systems i.e. addition and free radical curing and the fibrosis around silicone elastomer. The experiment carried out uses commercially available silicone ventriculo-peritoneal shunt material elastomer cured by platinum and the results are compared with results obtained in a similar study carried out by the authors using commercially available silicone tissue expander material cured by peroxide. Ultra-high molecular weight poly-ethylene (UHMWPE), the standard reference for biocompatibility evaluation, was used as the control material. The materials were implanted in rat skeletal muscle for 30 and 90 days. Inflammatory cells, myofibroblasts, cytokines, and collagen deposition at the material-tissue interface were identified by haematoxylin-eosin and Masson's Trichrome stains and semi-quantitated based on immunohistochemical studies. Results indicate that even though the cellular response in the initial phase of wound healing was similar in both platinum and peroxide-cured materials, the collagen deposition in the proliferative phase was more around peroxide-cured material in comparison to the platinum-cured silicone elastomer. There is a need to look into the molecular mechanisms of this interaction and the possibility of using curing systems other than free radical peroxide in the manufacture of silicone elastomer expanders for breast prosthesis.

The impact of the myeloid response to radiation therapy

Radiation therapy is showing potential as a partner for immunotherapies in preclinical cancer models and early clinical studies. As has been discussed elsewhere, radiation provides debulking, antigen and adjuvant release, and inflammatory targeting of effector cells to the treatment site, thereby assisting multiple critical checkpoints in antitumor adaptive immunity. Adaptive immunity is terminated by inflammatory resolution, an active process which ensures that inflammatory damage is repaired and tissue function is restored. We discuss how radiation therapy similarly triggers inflammation followed by repair, the consequences to adaptive immune responses in the treatment site, and how the myeloid response to radiation may impact immunotherapies designed to improve control of residual cancer cells.

IFN-gamma and STAT1 arrest monocyte migration and modulate RAC/CDC42 pathways

Positive regulation of cell migration by chemotactic factors and downstream signaling pathways has been extensively investigated. In contrast, little is known about factors and mechanisms that induce migration arrest, a process important for retention of cells at inflammatory sites and homeostatic regulation of cell trafficking. In this study, we found that IFN-gamma directly inhibited monocyte migration by suppressing remodeling of the actin cytoskeleton and cell polarization in response to the chemokine CCL2. Inhibition was dependent on STAT1 and downstream genes, whereas STAT3 promoted migration. IFN-gamma altered monocyte responses to CCL2 by modulating the activity of Pyk2, JNK, and the GTPases Rac and Cdc42, and inhibiting CCL2-induced activation of the downstream p21-activated kinase that regulates the cytoskeleton and cell polarization. These results identify a new role for IFN-gamma in arresting monocyte chemotaxis by a mechanism that involves modulation of cytoskeleton remodeling. Crosstalk between Jak-STAT and Rac/Cdc42 GTPase-mediated signaling pathways provides a molecular mechanism by which cytokines can regulate cell migration.

Changes in cytokine signaling and extracellular matrix production induced by inflammatory factors in cultured vocal fold fibroblasts

OBJECTIVES

Modulating cytokine signaling in vocal fold fibroblasts after injury may influence extracellular matrix (ECM) production and eventual fibrotic outcome. To evaluate previously established in vivo cytokine and ECM gene expression hypotheses, we examined in vitro vocal fold fibroblast responses to exogenous inflammatory factor stimulation.

METHODS

Rat vocal fold fibroblast lines derived from explants were separately treated with interleukin-13 (IL-13), interferon gamma (IFN-gamma), tumor necrosis factor alpha (TNF-alpha), transforming growth factor beta subtype 1 (TGF-beta1), or prostaglandin E2 (PGE2). We examined the in vitro messenger RNA expression profiles of IL-1beta, IFN-gamma, TNF-alpha, TGF-beta1, and cyclooxygenase 2 (COX-2), as well as those of hyaluronic acid synthase (HAS) 1, HAS-2, procollagen subtype 1, and procollagen subtype 3, at 1,4, 8, 16, 24, and 72 hours after treatment, and compared them to those of untreated fibroblasts and in vivo data, using real-time reverse transcription-polymerase chain reaction.

RESULTS

IL-1beta and TNF-alpha induced each other and synergistically increased HAS-1 and HAS-2 expression. PGE2 also up-regulated HAS-1 and HAS-2 expression. IFN-gamma, IL-1beta, TNF-alpha, and TGF-beta1 up-regulated HAS expression alongside either transient up-regulation of, or no change in, procollagen 1 and 3 expression. Most treatments appeared to suppress procollagen expression, possibly through HAS up-regulation. All inflammatory factors attenuated TGF-beta1 expression.

CONCLUSIONS

These results confirm several in vivo trends, identify potential cytokine pathways and therapeutic candidates, and suggest the utility of this in vitro setup for future studies.

Baculovirus-mediated interferon alleviates dimethylnitrosamine-induced liver cirrhosis symptoms in a murine model

The wild-type baculovirus Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) infects a range of mammalian cell types in vitro but does not replicate in these cells. The current study investigated the in vivo effect of AcMNPV in the mouse model of liver cirrhosis induced by the mutagen dimethylnitrosamine. Intraperitoneal injection of AcMNPV induced an immune response. The baculovirus was taken up by the liver and spleen where it suppressed liver injury and fibrosis through the induction of interferons. This study presents the first evidence of the feasibility of using baculovirus to treat liver cirrhosis.

Bovine recombinant IFNγ induces endothelial cell gene transcription of immunoregulatory molecules and upregulates PMN and PBMC adhesion on bovine endothelial cells

Interferon gamma (IFNgamma) is an important modulator of immune responses acting on multiple cell types, such as lymphocytes, macrophages or endothelial cells. We investigated the effects of recombinant bovine IFNgamma on bovine umbilical vein endothelial cells (BUVEC) for the level of polymorphonuclear neutrophil cell (PMN)- and peripheral blood mononuclear cell (PBMC)-adhesion as well as the gene transcription of endothelial cell-derived adhesion molecules (E-selectin, P-selectin, VCAM-1, ICAM-1), chemokines (CXCL1, CXCL8, CXCL10, CCL2, CCL5), GM-CSF, iNOS and COX-2 in comparison to TNFalpha-stimulation. IFNgamma strongly induced PMN and PBMC adhesion on BUVEC involving CD4(+), CD8(+) and gammadelta-TCR(+) (WC1(+)) lymphocytes. Furthermore, IFNgamma-stimulation led to a strong upregulation in the transcription of VCAM-1, ICAM-1, CXCL10 and CCL2 genes and to a low to moderate increase in the E- and P-selectin, CXCL1, CXCL8, CCL5, COX-2 and iNOS gene transcripts, but failed to enhance GM-CSF gene transcription. These results indicate that IFNgamma can be considered an important activator of endothelial cells in the bovine system, most probably by influencing the outcome of inflammatory responses through selective upregulation of immunoregulatory molecules.

Immediate inflammatory response and scar formation in wounded vocal folds

OBJECTIVES

Vocal fold scarring is the major cause of voice disorders after voice surgery or laryngeal trauma. The role of inflammatory factors in vocal fold wound healing and fibrosis has not been adequately investigated. Scarless wound healing has been associated with decreased inflammatory responses. To understand scar formation and develop reliable treatments, it is necessary to control extracellular matrix production and inflammation. Thus, we examined the inflammation profile and extracellular matrix production in wounded vocal folds in the acute phase of wound healing.

METHODS

Vocal fold stripping was performed on 30 Sprague-Dawley rats. Vocal fold tissue was collected at 5 time points (4, 8, 16, 24, and 72 hours). We examined the in vivo messenger RNA expression profile of inflammatory factors interleukin 1beta, interferon gamma, tumor necrosis factor alpha, nuclear factor kappa beta, transforming growth factor beta, and cyclooxygenase 2, as well as hyaluronic acid synthases 1 and 2, procollagen subtypes I and III, and elastin synthase in scarred vocal folds after injury, compared to normal vocal folds, using real-time reverse transcription-polymerase chain reaction.

RESULTS

The inflammatory factors showed a time-dependent sequence of expression peaks, starting with interleukin 1beta, nuclear factor kappa beta, tumor necrosis factor alpha (4 and 8 hours), and transforming growth factor beta (72 hours). Interferon gamma decreased at 24 hours. Correspondingly, hyaluronic acid synthase 1 expression peaked first (4 and 8 hours), whereas hyaluronic acid synthase 2 expression peaked at 16 hours and again at 72 hours. Procollagen I expression peaked at 72 hours, whereas procollagen III decreased from 8 to 16 hours but peaked at 72 hours. Cyclooxygenase 2 expression was elevated, whereas elastin expression remained constant.

CONCLUSIONS

The results show a clear profile of vocal fold inflammation with corresponding changes in extracellular matrix production.

Double-Blind, Randomized, Placebo-Controlled, Prospective Study Evaluating the Tolerability and Effectiveness of Imiquimod Applied to Postsurgical Excisions on Scar Cosmesis

BACKGROUND

It has been reported that topical application of imiquimod 5% cream induces interferon-alpha, an antifibrotic cytokine.

OBJECTIVE

To determine the tolerability and effectiveness on the cosmetic outcome of the application of imiquimod to postsurgical excision sites.

MATERIALS AND METHODS

A prospective, double-blinded, randomized, vehicle-controlled trial was conducted among 20 patients with two skin lesions clinically diagnosed as melanocytic nevi. Imiquimod 5% cream was applied to one of the sutured surgical wounds starting the night of the excision nightly for a period of 4 weeks. The second sutured excision site was treated with vehicle cream. Scar cosmesis, erythema, pigmentary alterations, induration, tenderness, and pain were assessed using a visual analogue scale 2, 4, and 8 weeks after surgery.

RESULTS

Eighteen subjects completed the study, with a total of 36 excision sites; no wound site dehisced, and no signs of infection were noted. Surgical wounds treated with imiquimod had more erythema, pigmentary alterations, and lower cosmesis rated by the investigator compared with wounds treated with placebo, both becoming nonsignificant in further evaluations. For pigmentary alterations, induration, and cosmesis rated by the patients, no statistically significant difference between treatment groups was observed at week 8.

CONCLUSION

Treatment of surgical excision-site wounds with imiquimod was well tolerated and without serious adverse events. Evaluations for cosmesis of placebo-treated surgical sites were better than imiquimod-treated sites at week 8, becoming nonsignificant later.

Functional arrangement of rat diaphragmatic initial lymphatic network

Fluid and solute flux between the pleural and peritoneal cavities, although never documented under physiological conditions, might play a relevant role in pathological conditions associated with the development of ascitis and pleural effusion and/or in the processes of tumor dissemination. To verify whether a pleuroperitoneal flux might take place through the diaphragmatic lymphatic network, the transdiaphragmatic pressure gradient (Delta P(TD)) was measured in five spontaneously breathing anesthetized rats. Delta P(TD) was -1.93 cmH2O (SD 0.59) and -3.1 cmH2O (SD 0.82) at end expiration and at end inspiration, respectively, indicating the existence of a pressure gradient directed from the abdominal to the pleural cavity. Morphometrical analysis of the diaphragmatic lymphatic network was performed in the excised diaphragm of three additional rats euthanized with an anesthesia overdose. Optical and electron microscopy revealed that lymphatic submesothelial lacunae and lymphatic capillaries among the skeletal muscles fibers show the ultrastructural features of the so-called initial lymphatic vessels, namely, a discontinuous basal lamina and anchoring filaments linking the outer surface of the endothelial cells to connective tissue or to muscle fibers. Primary unidirectional valves in the wall of the initial lymphatics allow entrance of serosal fluid into the lymphatic network preventing fluid backflow, while unidirectional intraluminar valves in the transverse vessels convey lymph centripetally toward central collecting ducts. The complexity and anatomical arrangement of the two valves system suggests that, despite the existence of a favorable Delta P(TD), in the physiological condition no fluid bulk flow takes place between the pleural and peritoneal cavity through the diaphragmatic lymphatic network.

Cytokine gene expression in a murine wound healing model

Inflammatory mediators have been shown to play a major role in the complex series of co-ordinated events that occur in wound healing responses following injury. However, to date most of the studies carried out have addressed the expression, interactions and role of only one or two cytokines that are thought to be involved in wound repair. This study has evaluated, in murine skin samples taken at 0, 3, 12, 18, 24, 48, 72, 120 and 168 h post-wounding, the expression of a wide range of cytokines with potential for a role in wound repair. Various techniques (reverse transcription polymerase chain reaction (RT-PCR), bioassays and ELISA) were used to evaluate cytokine expression in these samples at both the mRNA and protein expressions level. Semi-quantitative analysis using RT-PCR revealed that IL-1beta, IP10, bFGF, and TGFbeta3 up-regulated in wounded samples, compared to non-injured control samples. Expression of mRNA for other cytokines and inflammatory mediators, IL-1alpha, IL-6, TGFbeta1, TNFalpha, MIP-1alpha, MIP-2, JE, KC, PDGFalpha and PDGFbeta, were found to be down-regulated in injured adult murine samples compared to normal control samples. Interestingly we failed to find evidence of mRNA expression for the cytokines IL-2, IL-4, IL-12, GM-CSF, IFNgamma and RANTES, in both non-injured and injured samples. These observations were also generally supported by the results obtained using bioassays for IL-1 and IL-6 and ELISA for IL-1alpha, IL-1beta, IL-6, TNFalpha, and IFNgamma.

The fibroblast-populated collagen matrix as a model of wound healing: a review of the evidence

The fibroblast-populated collagen matrix (FPCM) has been utilized as an in vitro model of wound healing for more than 2 decades. It offers a reasonable approximation of the healing wound during the phases of established granulation tissue and early scar. The gross and microscopic morphology of the FPCM and the healing wound are similar at analogous phases. The processes of proliferation, survival/apoptosis, protein synthesis, and contraction act in similar directions in these two models, and the response to exogenous agents also is consistent between them. If its limitations are respected, then the FPCM can be used as a model of the healing wound.

The Essential Involvement of Cross-Talk between IFN-γ and TGF-β in the Skin Wound-Healing Process

Several lines of in vitro evidence suggest the potential role of IFN-gamma in angiogenesis and collagen deposition, two crucial steps in the wound healing process. In this report, we examined the role of IFN-gamma in the skin wound healing process utilizing WT and IFN-gamma KO mice. In WT mice, excisional wounding induced IFN-gamma mRNA and protein expression by infiltrating macrophages and T cells, with a concomitant enhancement of IL-12 and IL-18 gene expression. Compared with WT mice, IFN-gamma KO mice exhibited an accelerated wound healing as evidenced by rapid wound closure and granulation tissue formation. Moreover, IFN-gamma KO mice exhibited enhanced angiogenesis with augmented vascular endothelial growth factor mRNA expression in wound sites, compared with WT mice, despite a reduction in the infiltrating neutrophils, macrophages, and T cells. IFN-gamma KO mice also exhibited accelerated collagen deposition with enhanced production of TGF-beta1 protein in wound sites, compared with WT mice. Furthermore, the absence of IFN-gamma augmented the TGF-beta1-mediated signaling pathway, as evidenced by increases in the levels of total and phosphorylated Smad2 and a reciprocal decrease in the levels of Smad7. These results demonstrate that there is crosstalk between the IFN-gamma/Stat1 and TGF-beta1/Smad signaling pathways in the wound healing process.

Effects of locally injected interferon-β on palatal mucoperiosteal wound healing

BACKGROUND

Wound contraction and scar formation in the palatal mucoperiosteum after cleft palate surgery impair maxillary growth. The aim of this study was to determine the effects of IFN-beta on palatal mucoperiosteal wound healing in growing rats.

METHODS

Standardized wounds were made in the palatal mucoperiosteum of young rats. Either IFN-beta or vehicle were injected at the wound site between 4 and 29 days after wounding. The results were compared with control wounds. Tissue samples were collected at 8, 15, 30, and 60 days PW for biochemical and microscopic analysis.

RESULTS

IFN-beta stimulated re-epithelialization but did not reduce the number of myofibroblasts or scar tissue formation. Surprisingly, the injection of vehicle alone delayed the healing process.

CONCLUSION

IFN-beta might be suitable to stimulate re-epithelialization but it does not reduce scar tissue formation in rat palatal wound healing. The injection of agents into palatal wounds might severely impair the healing process.

Quantitative analysis of immunocompetent cells in oral submucous fibrosis in Taiwan

Previous studies have shown that the local and systemic upregulation of inflammatory and fibrogenic cytokines and downregulation of antifibrotic cytokines are central to the pathogenesis of oral submucous fibrosis (OSF). The immunocompetent cells, especially the macrophages and lymphocytes, are likely the main source of cytokine synthesis. Therefore, this study used an immunohistochemical method to quantify the T lymphocyte, B lymphocyte and macrophage densities in the epithelium and subepithelial connective tissue of 50 specimens of moderately advanced and advanced OSF and 10 specimens of normal oral mucosa (NOM). The mean T lymphocyte, B lymphocyte and macrophage densities in OSF specimens were 555.2+/-417.4, 63.4+/-44.3 and 66.9+/-76.4 cells/mm(2) in the subepithelial connective tissue and 308.1+/-261.1, 1.4+/-3.5 and 6.6+/-11.9 cells/mm(2) in the epithelium, respectively. These findings suggest that T lymphocytes were the major immunocompetent cells in both the subepithelial connective tissue and epithelium of OSF specimens. Macrophages and B lymphocytes are the minor immunocompetent cells in the subepithelial connective tissue and are only occasionally found in the epithelium of OSF specimens. Similar distribution of immunocompetent cells was also found in NOM specimens. However, the mean T lymphocyte, B lymphocyte and macrophage densities in the subepithelial connective tissue (271.2+/-107.0, 13.3+/-18.4 and 17.3+/-19.1 cells/mm(2), respectively) and the mean T lymphocyte density in the epithelium (97.7+/-51.4) of NOM specimens were significantly lower than the corresponding mean cell densities in OSF specimens. Using frozen tissue sections, we further quantified the CD4+ and CD8+ lymphocyte numbers in eight moderately advanced or advanced OSF specimens. It was found that the CD4+ and CD8+ lymphocyte densities were 213.3+/-140.7 and 101.5+/-72.8 cells/mm(2) in the subepithelial connective tissue of OSF specimens, respectively. The CD4+ to CD8+ lymphocyte ratio was 2.1:1. Our results showed a significant increase in the number of T lymphocytes and macrophages and a predominance of CD4+ lymphocytes over CD8+ lymphocytes in the subepithelial connective tissue of OSF specimens. We conclude that the cellular immune response may play an important role in the pathogenesis of OSF.

Local injection of IFN-gamma reduces the number of myofibroblasts and the collagen content in palatal wounds

Wound contraction and scar formation after cleft palate surgery impair maxillary growth and dentoalveolar development. Since myofibroblast numbers and scar formation are reduced by interferon-gamma (IFN-gamma) in the healing of dermal wounds, the hypothesis was tested that local administration of IFN-gamma reduces the numbers of myofibroblasts and the elevated amount of collagen during palatal mucoperiosteal wound healing. Standardized mucoperiosteal excision wounds were made in the palatal mucoperiosteum of young rats. Either IFN-gamma or vehicle alone (sham group) was repeatedly injected into the wound site between 4 and 29 days post-wounding. The results were compared with unmanipulated control wounds. Samples of wound tissue were prepared for biochemical and microscopic analysis. The hydroxyproline, sulfated glycosaminoglycan and DNA contents of the wound tissues were analyzed biochemically. The degree of re-epithelialization, tissue thickness, the numbers of myofibroblasts, and the amounts of elastin and collagen types I and III were evaluated on histological sections. Injection of vehicle alone affected almost all healing parameters, compared with the controls, and delayed the wound-healing process. IFN-gamma stimulated re-epithelialization and decreased the numbers of myofibroblasts when compared with vehicle-treated wounds. It also decreased the hydroxyproline and glycosaminoglycan contents of 60-day-old wound tissue, but the histological characteristics of scar tissue persisted. Therefore, IFN-gamma is able to reduce the numbers of myofibroblasts and the collagen content of scar tissue after palatal wound healing. It may be a promising pharmaceutical agent for the reduction of wound contraction and scarring after cleft palate surgery.

Counterregulation of interleukin-18 mRNA and protein expression during cutaneous wound repair in mice

Recent work has suggested interleukin-18 to represent a proinflammatory cytokine that contributes to systemic and local inflammation. As the process of cutaneous wound healing crucially involves an inflammatory phase of repair, we investigated the regulation of interleukin-18 during the repair process. In non-wounded skin we observed high levels of interleukin-18 mRNA, whereas corresponding interleukin-18 protein was expressed only at low basal levels. Upon injury, we found a rapid and large induction of interleukin-18 protein expression, which is directly correlated with decreasing mRNA levels within the wound. Immunohistochemical analysis revealed different sites of expression in the wounded area, with keratinocytes as one major source of interleukin-18 production. The counterregulation of interleukin-18 mRNA and protein expression during wound repair in vivo might represent a general mechanism for interleukin-18 expressional regulation, as cytokine-stimulated keratinocytes exhibit a similar downregulation of interleukin-18 mRNA that is directly associated with increasing interleukin-18 protein levels in vitro. The rapid induction of interleukin-18 during wound healing suggests a role for interleukin-18 within the early phase of repair rather than a role in costimulation of interferon-gamma release from T cells, which are present in high numbers within the wounded area only during the late inflammatory phase of repair.

Transcriptional inhibition of stromelysin by interferon-gamma in normal human fibroblasts is mediated by the AP-1 domain

The expression of the major matrix-degrading metalloproteinase, stromelysin (SL), is modulated by a variety of cytokines and growth factors. Interferon-gamma (IFN-gamma) is a potent modulator of SL expression, either inhibiting or activating expression in a cell-specific manner. We have investigated the mechanisms involved in the regulation of SL gene expression in cultured human fibroblasts by IFN-gamma. Reverse transcription-polymerase chain reaction (RT-PCR) assays confirmed the previously reported profound inhibitory response of SL mRNA expression to IFN-gamma [Amaldi et al., 1989]. For evaluation in transient gene expression assays, 1.2-kilobase (kb) pairs (-1214 to +14 relative to the transcription start site), and shorter, deletion mutant fragments of the SL promoter were cloned into appropriate chloramphenicol acetyltransferase transferase (CAT) expression vectors. The SL promoter along this region contains an active polyomavirus enhancer A-binding protein-3 (PEA-3) site at -216 and an activator protein-1 (AP-1) site at -70. Treatment of transfected neonatal foreskin fibroblasts with 300-500 U/ml IFN-gamma resulted in down-regulation of both basal and IL-1beta-induced CAT gene expression. IFN-gamma also decreased CAT expression when placed under the control of a synthetic multimeric AP-1 site construct. Gel-shift assay data indicate a decrease in specific binding to AP-1 oligonucleotide of nuclear extract from IFN-gamma and PMA/IFN-gamma-treated cells. The suppression of SL expression by IFN-gamma, in human fibroblasts therefore is mediated through the AP-1 element.

IFN-γ Inhibits Activation-Induced Expression of E- and P-Selectin on Endothelial Cells

E- and P-selectin are cell surface lectins that mediate leukocyte-endothelial cell adhesion and thereby participate in neutrophil recruitment into inflammatory sites. E-selectin can be induced on endothelial cells by various activators, including TNF-α, IL-1β, and PMA. Induction of E-selectin is blocked by pretreatment of endothelial cells with IL-4 or TGF-β, both of which have antiinflammatory properties in vivo. In addition to its well-known proinflammatory activities, IFN-γ also has antiinflammatory effects in vivo, one of which is inhibition of neutrophil recruitment. To determine whether IFN-γ inhibits neutrophil recruitment by inhibiting adhesion molecule expression, the effect of IFN-γ on activation-induced cell adhesion molecule expression by cultured HUVEC was evaluated. Pretreatment of endothelial cells with IFN-γ for 24 to 72 h before 6- to 24-h activation with IL-1β, TNF-α, or PMA resulted in significantly reduced levels of cell surface E-selectin, although levels of ICAM-1 and VCAM-1 were the same or increased. The reduction of cell surface E-selectin levels under these conditions was reflected in reduced levels of E-selectin mRNA, indicating an effect at the transcription level or RNA stability. Interestingly, the increase of cell surface P-selectin expression due to IL-4 treatment of HUVEC was also inhibited by IFN-γ, while constitutive levels of P-selectin were not. These results suggest that the inhibition of neutrophil recruitment by IFN-γ in vivo may be due, in part, to the ability of IFN-γ to inhibit E- and P-selectin up-regulation. Furthermore, these findings emphasize the process of leukocyte recruitment as an important step through which IFN-γ can direct the character of inflammatory reactions.

Effects of Gamma-interferon on Keratocyte-induced Collagen Gel Contraction and Keratocyte Proliferation

PURPOSE

Gamma-interferon has been shown to be an effective immunoregulatory polypeptide that can modulate fibroblastic response. We investigated the effects of gamma-interferon on keratocyte proliferation and keratocyte-induced collagen gel contraction.

METHODS

Gamma-interferon in concentrations of 0.01, 1, 100, and 1000 U/ml of media was added to keratocytes embedded in polymerized type I collagen and the gel area was measured after 5 days with an image analysis system. The rate of keratocyte proliferation within and outside the collagen gel under the influence of gamma-interferon was also investigated.

RESULTS

Keratocyte-induced collagen gel contraction was significantly inhibited at all concentrations above 0.01 U/ml. The keratocyte proliferation was not affected by low and moderate concentrations and was significantly stimulated at concentration of 1000 U/ml.

CONCLUSION

Keratocyte-induced collagen gel contraction is inhibited by gamma-interferon and the mechanism of this effect is not inhibition of keratocyte proliferation by gamma-interferon.

Strain-specific differences in mouse hepatic wound healing are mediated by divergent T helper cytokine responses

Hepatic fibrosis represents the generalized response of the liver to injury and is characterized by excessive deposition of extracellular matrix. The cellular basis of this process is complex and involves interplay of many factors, of which cytokines are prominent. We have identified divergent fibrosing responses to injury among mouse strains and taken advantage of these differences to examine and contrast T helper (Th)-derived cytokines during fibrogenesis. Liver injury was induced with carbon tetrachloride, fibrosis was quantitated, and Th1/Th2 cytokine mRNAs measured. Liver injury in BALB/c mice resulted in severe fibrosis, whereas C57BL/6 mice developed comparatively minimal fibrosis. Fibrogenesis was significantly modified in T and B cell-deficient BALB/c and C57BL/6 severe combined immunodeficient (SCID) mice compared with wild-type counterparts, suggesting a role of Th subsets. Fibrogenic BALB/c mice exhibited a Th2 response during the wounding response, whereas C57BL/6 mice displayed a Th1 response, suggesting that hepatic fibrosis is influenced by different T helper subsets. Moreover, mice lacking interferon gamma, which default to the Th2 cytokine pathway, exhibited more pronounced fibrotic lesions than did wild-type animals. Finally, shifting of the Th2 response toward a Th1 response by treatment with neutralizing anti-interleukin 4 or with interferon gamma itself ameliorated fibrosis in BALB/c mice. These data support a role for immune modulation of hepatic fibrosis and suggest that Th cytokine subsets can modulate the fibrotic response to injury.

Molecular analysis of different phases in human wound healing

Cultured granulation fibroblasts grown from punch biopsies of the same lower arm area, obtained 3, 6, 9 and 14 days after wounding, were used as a human wound healing model in comparison to quiescent fibroblasts. We investigated the expression of key extracellular matrix components at the protein level by flow cytometry and mRNA steady state levels by Northern blotting of the different fibroblasts and compared these data to the ability to migrate towards a chemotactic signal. Procollagen alpha 1 (I), fibronectin and matrix metalloprotease-1 synthesis was strongly up-regulated at the mRNA steady state level on days 3 and 14. Tissue inhibitor of metalloprotease-1 mRNA is only 20% down-regulated between day 3 and 14. Chemotaxis towards conditioned medium reflects a net effect of several factors and is distinctly different from chemotaxis towards platelet-derived growth factor, which peaks at day 3. Compared to the protein level, the enhanced expression of the corresponding PDGF receptor beta chain mRNA is delayed by 3 to 6 days. PDGF receptor alpha shows no regulatory changes during the observation period. This data further supports the idea that functionally divergent subpopulations of fibroblasts exist during wound healing.

Keloid excision and recurrence prophylaxis via intradermal interferon-gamma injections: a pilot study

Keloids are an abnormal response to wound healing distinguished by an overproduction of collagen. Thickened bundles of collagen in the reticular dermis oriented haphazardly in relation to the overlying epithelium are found in keloids, in contrast to thinner collagen fibers in a more orderly arrangement that are found in normal scars. Previous clinical trials of intralesional interferon-gamma (IFN-G) injections by Larrabee et al. and Granstein et al. showed a decrease in lesion size. These findings led to a conclusion that IFN-G would be a useful adjunct to surgical excision of keloids to aid in preventing recurrence. We performed a double-blind, placebo-controlled trial in patients with two or more keloids treated with excision and subsequent local injections of IFN-G or placebo.

The effects of 5-fluorouracil and interferon-alpha on early healing of experimental intestinal anastomoses

The continuing search for effective adjuvant therapy after resection of intestinal malignancies has prompted a growing interest in both immediate post-operative regional chemotherapy and the combination of 5-fluorouracil (5-FU) and interferon-alpha as drugs of choice. We have compared the effects of both compounds, alone and together, on early healing of intestinal anastomoses. Four groups (n = 26 each) of rats underwent resection and anastomosis of both ileum and colon: a control group and three groups receiving intraperitoneal 5-FU, interferon-alpha or both on the day of surgery and the next 2 days. Animals were killed 3 or 7 days (n = 10 each) after operation in order to measure anastomotic strength and hydroxyproline content. The remaining six animals in each group were used to study anastomotic collagen synthetic capacity at day 3. Three days after operation, ileal anastomotic bursting pressure was lowered by 37% in the 5-FU/interferon-alpha group (P = 0.0104). At day 7, anastomotic breaking strength was reduced significantly in ileum (P = 0.0221) and colon (P = 0.0054) of the 5-FU/interferon-alpha group and in colon of the interferon-alpha group (P = 0.0221). Collagen synthetic capacity was strongly suppressed by 5-FU but not by interferon-alpha. However, no differences in anastomotic hydroxyproline content were observed between groups at both days 3 and 7. Thus, post-operative use of interferon-alpha, in particular in combination with 5-FU, may be detrimental to anastomotic repair in the intestine.

Interferon alfa and gamma inhibit proliferation and collagen synthesis of human Ito cells in culture

During the course of ongoing liver fibrogenesis, Ito cells acquire myofibroblastic features, proliferate, and synthesize increased amounts of extracellular matrix components. Interferon (IFN) alfa and IFN gamma have been shown to elicit antiproliferative and/or antifibrogenic effects in various cell cultures of mesenchymal origin. The aim of this study was to investigate the effects of IFN-alpha and IFN-gamma on cultured human myofibroblastic Ito cells (MFBIC) proliferation and collagen synthesis and secretion. Serum-stimulated incorporation of [3H]-thymidine into DNA of MFBIC was dose-dependently decreased by both cytokines. IFN-alpha (10(4) U/mL) and IFN-gamma (10(3) U/mL) decreased DNA synthesis by 69% and 66%, respectively. Inhibition of cell proliferation was confirmed by cell counting. Similar results were observed when cell growth was stimulated with platelet-derived growth factor (PDGF-BB, PDGF-AA) or transforming growth factor (TGF)-beta 1. Collagen secretion per cell was inhibited by both cytokines, as assessed by [3H]-hydroxyproline incorporation. After a 6-day treatment, IFN-gamma showed a greater potency than IFN-alpha in inhibiting secretion of newly synthetized collagen (41% and 4% of control in the presence of 10(2) U/mL of IFN-gamma and 10(4) U/mL of IFN-alpha, respectively). Both IFN-alpha and IFN-gamma concurrently decreased steady-state expression of type I and type III procollagen messenger RNAs (mRNAs) in quiescent MFBIC. Viability assays ruled out cytotoxic effects of the two molecules. Finally, both IFNs decreased smooth muscle alpha-actin (SM alpha-actin) expression, whether assayed by immunoblotting or by Northern blot analysis. We conclude that IFN-alpha and IFN-gamma inhibit proliferation as well as collagen synthesis in human MFBIC.

Regression of skin recurrences of breast carcinomas treated with intralesional injections of natural interferons alpha and gamma

Two groups of patients with disseminated breast carcinomas who had failed radiotherapy, chemotherapy, and hormonotherapy were treated with natural interferon alpha (nIFN-alpha) alone or in combination with nIFN-gamma delivered in cycles of 10-12 intralesional (i.l.) injections to recurrent and metastatic lesions. In group, I, 16 skin lesions in 12 patients received nIFN-alpha alone resulting in 7 complete regressions verified histologically (CR), 7 partial regressions (PR), and no regressions (NR) in 2. Group II included 4 patients in whom 7 cutaneous recurrences were treated with nIFN-alpha/nIFN-gamma (5 CR, 2 PR), 2 were injected with nIFN-alpha alone (1 CR, 1 PR), and 1 received nIFN-gamma alone (PR). Two additional patients in group II were given i.l. injections of nIFN-alpha/nIFN-gamma to lymph node metastases (1 CR, 1 PR). Clinical toxicity was experienced by 5 of 12 patients in group I and by all the patients in group II and was controlled in most instances by antipyretics. Systemic antitumor effects were not appreciable clinically. Nevertheless, noninjected lesions exposed only to systemic levels of IFNs, when studied immunohistochemically, displayed an immunological response similar to that of IFN-injected lesions, although less intense. Therefore, IFNs can be useful in controlling locoregional recurrences of breast cancer even in patients who are not responding to other forms of therapy. Furthermore, in addition to the local antitumor actions, they appear to be capable of eliciting systemic immunological effects.

Radiation pneumonitis. Bronchoalveolar lavage assessment and modulation by a recombinant cytokine

A common side effect of radiotherapy is the development of fibrosis in the irradiated tissue. To study the mechanisms of this fibrogenic response, we developed a model system of whole-lung radiation in the rat and studied the evolution of injury by assessment of the cells and protein recovered by lavage. Once the pattern of injury was known, we attempted to modulate this reaction by administering the cytokine interferon-gamma (IFN-gamma). Rats received 15 Gy radiation to the whole thorax and were studied by lung lavage at intervals of 1 to 35 days after radiation. The effect of radiation was an initial (24 h) leak of protein, unaccompanied by cellular alterations, that resolved by 48 h. This was followed 2 wk later by a phase of inflammatory cell recruitment and more significant protein leak. A third phase of increase in inflammatory cells and further increase in protein flux was noted at Day 35. A significant cellular infiltrate was seen in lung sections obtained from animals treated in parallel experiments. IFN-gamma was given by osmotic pump from Day 0 to Day 35. This treatment significantly attenuated the PMN recruitment and protein leak (p < 0.002 and 0.01, respectively) at Days 25 and 35. Histologic sections demonstrated reduced alveolar cellularity and exudate at Day 25 (p < 0.05); however, significant numbers of inflammatory cells and exudate were present in irradiated and IFN-gamma-treated animals at Day 35. These data indicate that inflammatory cell recruitment may play a role in the lung injury following radiation. Furthermore, these preliminary data indicate that a cytokine blocks this reaction.

Opposite effects of interleukin-2 on normal and transfusion-suppressed healing of experimental intestinal anastomoses

OBJECTIVE

This study was done to investigate whether administration of interleukin-2 (IL-2) can abrogate the negative effects of blood transfusions on anastomotic healing.

SUMMARY BACKGROUND DATA

Recently, the authors showed that blood transfusion severely impairs anastomotic repair and significantly increases the susceptibility to intra-abdominal septic complications in rats. It has been reported that blood transfusions suppress IL-2 production and that IL-2 may stimulate wound healing.

METHODS

Lewis rats underwent resection and anastomosis of both the ileum and colon. Subsequently, they received either 3 mL of saline (control and IL-2 groups) or 3 mL of blood from brown Norway donors (transfusion and transfusion/IL-2 groups) intravenously. From the operation onward, the animals in the IL-2 and transfusion/IL-2 groups received daily injections of 5.4 x 10(5) IU of IL-2 in dextrose solution subcutaneously; the rats in the other groups received only the dextrose solution. The animals were killed 3 or 7 days after the operation and examined for septic complications and anastomotic repair.

RESULTS

Transfusion led to an enhanced incidence of anastomotic abscesses, which was almost completely abrogated after IL-2 administration. The anastomotic strength was consistently and significantly reduced after transfusion. Seven days after surgery, the anastomotic strength was completely restored by IL-2 treatment. For instance, the average bursting pressure (+/- the standard deviation) of the ileal anastomoses in the control, transfusion, and transfusion/IL-2 groups were 86 +/- 15, 32 +/- 8,* and 63 +/- 10 mmHg* [symbol: see text] on day 3 and 293 +/- 36, 227 +/- 16,* and 299 +/- 19 mmHg on day 7, respectively (where * = significant vs. control group and [symbol: see text] = significant vs. transfusion group). In addition, IL-2 administration elevated the anastomotic hydroxyproline content, which was significantly decreased by transfusion alone, to the level found in the control group. The administration of IL-2 to control animals resulted unexpectedly in a significant reduction in anastomotic strength.

CONCLUSIONS

Exogenous IL-2 reverses the negative effects of blood transfusions on anastomotic repair, but it impairs healing under normal conditions.

Collagen synthesis in intact skin is suppressed during wound healing

OBJECTIVE

Simultaneous monitoring of total collagen synthesis as well as synthesis in intact skin and in the wound to verify the higher priority of wound healing after surgery.

SUMMARY BACKGROUND DATA

Synthesis of acute phase proteins is stimulated by surgical trauma. At the same time, production of albumin is inhibited and there is a net catabolism of skeletal muscle proteins. Similarly, the authors have found a transient inhibition of total collagen synthesis after surgery. The authors hypothesized a lower priority in synthesis of structural and peripheral collagen for the benefit of wound healing.

METHODS

The concentrations of the carboxyterminal propeptide of type I procollagen (PICP) and the aminoterminal propeptide of type III procollagen (PIIINP) were measured in suction blister fluid of intact skin and in wound fluid in ten surgical patients. PICP and PIIINP concentrations in serum were also measured. Specific radioimmunoassays were used.

RESULTS

In peripheral skin, the median preoperative concentrations of PICP and PIIINP were 228 and 140 micrograms/L, respectively. On postoperative days 1, 2, 4 and 7, the median concentration of PICP was 145 (p = 0.01, Wilcoxon signed rank sum test), 102 (0.02), 159 (0.03), and 152 (0.06) micrograms/L, respectively. The postoperative medians of PIIINP were 68 (p = 0.17), 76 (0.04), 66 (0.06), and 56 (0.03) micrograms/L, respectively. At the same time, collagen synthesis in the wound increased dramatically from the second day on. After an initial decrease, propeptide concentrations in serum gradually increased from the fourth day on.

CONCLUSIONS

Collagen synthesis is regulated for the benefit of the wound during the acute phase response.

Regulation of expression of the type I collagen genes

The identification and functional analysis of DNA-protein interactions in the intronic and 5' flanking regions of the type I collagen genes has begun to define a series of cis-elements and trans-acting factors which regulate transcription of these genes. Studies such as these will eventually be expected to elucidate the mechanisms responsible for coordinate transcription of the alpha 1 and alpha 2 genes, a question which remains central to the field of collagen research. Although it is relatively straightforward to define sites of DNA-protein binding, interpretation of the functional importance of such interactions can be extremely complex. Furthermore, while mutation or deletion of a particular binding site may alter the functional activity of a construct transfected into cultured cells, there is no guarantee that a similar change will have the same effect in vivo, where the entire gene locus is present in its native chromosomal context. Nevertheless, these kinds of in vitro studies offer the best current approach to defining and isolating transcription factors that control expression of the alpha 1 and alpha 2 genes. Ultimately, it will be necessary to test the activity of such factors (and their respective cis-elements) in defined systems in vivo.

Inhibition of rat hepatic lipocyte activation in culture by interferon-gamma

Hepatic lipocytes (perisinusoidal, Ito cells) are the primary matrix-producing cells in liver fibrosis. During liver injury they undergo activation, a process characterized by cell proliferation and increased fibrogenesis. We and others have established a culture model in which in vivo features of lipocyte activation can be mimicked by cells grown on plastic. Additionally, we recently showed that activation is associated with new expression of smooth muscle-specific alpha-actin both in vivo and in culture. Although interferon-gamma is known to inhibit collagen production in some systems, its action as a general modulator of lipocyte activation has not been examined; this issue forms the basis for our study. In culture-activated lipocytes, interferon-gamma (1,000 U/ml) significantly inhibited lipocyte proliferation as assessed by [3H]thymidine incorporation assay and nuclear autoradiography. In time-course studies of activation, it also markedly reduced expression of smooth muscle-specific alpha-actin and its messenger RNA. In dose-response experiments, maximal inhibitory effects on smooth muscle-specific alpha-actin mRNA gene expression were achieved with as little as 10 U interferon-gamma/ml. Inhibition of cellular activation was reversible; after interferon-gamma withdrawal, messenger RNA levels of smooth muscle-specific alpha-actin returned to untreated control levels. The effect of interferon-gamma extended to extracellular matrix gene expression, with reduction of type I collagen, type IV collagen and total fibronectin messenger RNAs to 3%, 24% and 15% of untreated control levels, respectively. In contrast to the marked effects on smooth muscle-specific alpha-actin and extracellular matrix gene expression, interferon-gamma reduced total protein synthesis by only 17.7%.(ABSTRACT TRUNCATED AT 250 WORDS)

Relaxin alone and in conjunction with interferon-gamma decreases collagen synthesis by cultured human scleroderma fibroblasts

Fibroblasts derived from the involved skin of scleroderma patients frequently display a phenotype of supernormal collagen expression when cultured. Fibroblasts displaying this phenotype derived from seven patients were treated with relaxin (1-100 ng/ml) and interferon-gamma (1-100 U/ml), individually and in combination, to assess the relative abilities of these cytokines to down-modulate collagen synthesis and secretion. Scleroderma fibroblasts displayed varying sensitivities to both relaxin and interferon-gamma. Relaxin (100 ng/ml) decreased expression of collagen by six of seven lines tested from 8 to 59% compared to untreated cultures. Interferon-gamma (100 U/ml) depressed collagen secretion by all seven lines in a range from 7 to 89%. When relaxin and interferon-gamma were used in combination, relaxin augmented IFN-gamma-induced decreases in collagen secretion in four of seven lines. In three of these lines, the use of relaxin in conjunction with suboptimal doses of interferon-gamma resulted in decreases equivalent to or greater than that seen with a tenfold higher concentration of interferon-gamma. This study demonstrates the ability of relaxin to directly alter the excessive collagen-producing phenotype of scleroderma fibroblasts. In addition, in some cases, combining relaxin and interferon-gamma resulted in a cooperative effect in decreasing collagen expression by scleroderma cells in vitro.

Effect of gamma-interferon on collagen synthesis by normal and fibrotic human lung fibroblasts

Increased lung collagen and increased collagen synthesis by lung fibroblasts is well recognized in pulmonary fibrosis. gamma-Interferon has been shown to inhibit collagen synthesis by fibroblasts. To understand its effect on lung fibroblasts we compared how this lymphokine affects the growth and collagen synthesis of normal and fibrotic human lung fibroblasts. The results showed that gamma-IFN inhibited DNA synthesis in all fibroblast strains examined. Both collagen production and type 1 mRNA levels were reduced in three normal and two fibrotic cell strains exposed to gamma-IFN, while they were not affected in one strain from fibrotic lung. Even though an occasional cell was unaffected by the gamma-IFN, collagen mRNA level was reduced in most cells and it remained reduced for 48 h after removing the gamma-IFN. These results show that gamma-IFN inhibits the growth of fibroblast cultures derived from normal and fibrotic human lungs and suppresses collagen synthesis in most of these cells.

Human lung fibroblast subpopulations with different C1q binding and functional properties

Human lung fibroblasts differing in C1q binding, steady-state levels of collagen synthesis, and other functional properties were isolated. Explants of normal human lung specimens were cultured in medium containing complement-inactivated plasma-derived human serum or complete human serum. Cells obtained were treated with C1q and fluorescein isothiocyanate-anti-C1q antibody and separated based on fluorescence intensity in a fluorescence-activated cell sorter (FACS). FACS profiles showed that fibroblasts obtained in the presence of plasma-derived serum (HF cells) displayed higher fluorescence intensity than those obtained in complete serum (LF cells). The unsorted and sorted HF and LF fibroblasts retained their respective fluorescence phenotypes after subculture. The LF fibroblasts proliferated faster than HF cells and contained more cycling cells. However, whereas the sorted HF cells grew normally, sorted LF cells grew poorly. Collagen production and pro alpha l[I] mRNA levels in HF cells were 2.6 +/- 0.7 and 2.1 +/- 0.6 times as high as LF cells (n = 4). Collagen synthesis in both HF and LF cells was stimulated by transforming growth factor-beta and inhibited by interferon-gamma, but the stimulation was greater and inhibition less in LF cells. Our results indicate that C1q binding and the type of C1q receptors can serve as markers for fibroblast subpopulations differing in collagen synthesis, and that selection of subpopulations and their differential sensitivity to regulatory molecules can contribute to collagen alterations associated with inflammation, fibrosis, and other acquired diseases.

Demonstration of lymphatics in human synovial tissue

Using a cocktail of monoclonal antibodies PAL-E and DE-U-10 (anti-desmin), combined in double labelling techniques with the lectin Ulex europaeus agglutinin I (UEAI), vessels consistent with lymphatics were demonstrated in normal human synovial tissue. These vessels were negative for the monoclonal cocktail and positive for UEAI, were thin-walled and were located close to deep arterioles and venules as expected. Elastin was not found to assist identification of lymphatics in synovium. In rheumatoid arthritic synovium no vessels staining in the manner of normal lymphatics were found. This may indicate absence or change of phenotype of this type of endothelium in disease.

Substance P gene expression is regulated by interleukin-1 in cultured sympathetic ganglia

We have investigated the effects of interleukin-1 beta (IL-1 beta) on the induction of substance P (SP) in cultured sympathetic ganglia. Northern blot analysis reveals that SP increases are secondary to an increase in mRNA coding for the preprotachykinin (PPT) precursor of SP. Nuclear transcription assays detect an early increase in PPT-specific nascent transcripts, suggesting that the ultimate effect of IL-1 is on transcription itself. Depolarizing agents, interferon-gamma, glucocorticoid hormones, and prostaglandin synthesis inhibitors all diminish the induction of SP and PPT mRNA by IL-1. Since SP has stimulatory effects on the immune system, the IL-1-induced increase in ganglionic SP may be one means by which the nervous and immune systems interact during an acute response to ganglionic injury.

Suppression of bacterial cell wall-induced polyarthritis by recombinant gamma interferon

Group A streptococcal cell wall fragments (SCW) induce erosive polyarthritis, characterized by synovial cell hyperplasia and intense mononuclear cell infiltration, in susceptible rats. Because of the known antiproliferative and immunomodulatory effects of interferon (IFN), we evaluated the effect of systemically administered alpha, beta and gamma IFN on the evolution of these destructive lesions. Treatment with gamma IFN not only reduced the acute response, but had an even greater suppressive effect on the chronic mononuclear cell-mediated destructive phase of the disease (articular index 10.2 +/- 1.2 for SCW only versus 3.8 +/- 0.7 for SCW + gamma IFN; p less than 0.01). Treatment with gamma IFN was more effective in the suppression of the arthritis than alpha, beta IFN. Histopathologic evaluation of the joints demonstrated that gamma IFN-treated animals had significantly fewer inflammatory cells, and less synovial hyperplasia and erosions than the SCW controls. gamma IFN suppression of mononuclear cell prostaglandin synthesis and synovial fibroblast proliferation was consistent with its anti-arthritic effects. These data indicate that the pathophysiology of SCW-induced erosive polyarthritis is subject to regulatory control by gamma IFN and that the mechanisms of suppression may be relevant in the treatment of rheumatoid arthritis.

Interferons and collagen production

The immunoregulatory, antiviral, and antiproliferative agents known as the interferons have profound effects on collagen synthesis. Interferons alpha, beta, and gamma suppress collagen synthesis by dermal fibroblasts. In addition, interferon gamma (IFN-gamma) inhibits the constitutively increased collagen synthesis characteristic of fibroblasts derived from lesions of patients with scleroderma. IFN-gamma also inhibits collagen synthesis by myofibroblasts and synovial fibroblast-like cells. Inhibition of collagen synthesis by IFN-gamma is associated with a coordinate inhibition of transcription for types I and III collagen. In addition, IFN-gamma suppresses levels of procollagen mRNA and type II collagen synthesis in human articular chondrocytes. In vivo studies in mice have demonstrated that IFN-gamma inhibits the collagen synthesis associated with the fibrotic response to an implanted foreign body, bleomycin-induced pulmonary fibrosis, and the healing response to cutaneous thermal burns. In the latter case, while collagen content of the wound scar was decreased, hyaluronic acid was increased in mice receiving IFN-gamma compared to controls. This is in accord with in vitro studies showing that, while interferons alpha and beta decrease production of glycosaminoglycans, IFN-gamma increases production of glycosaminoglycans. Of interest, acute inflammation at sites of thermal injury, or when elicited by proinflammatory agents in separate experiments, also was suppressed in mice treated with IFN-gamma. The means by which IFN-gamma inhibits collagen synthesis involves transcriptional regulation. There is a single report that interferon alpha can decrease the size of a keloid of recent onset in a human patient. Because the interferons can inhibit collagen synthesis in vivo, further studies may be warranted to evaluate the usefulness of these agents in the treatment of disease states characterized by abnormal fibrotic responses as well as their potential for altering the healing response associated with particular therapeutic interventions.

Recombinant interferon-gamma (rIFN-gamma) in dermatology

This paper gives a short review on the function, pharmacokinetics, and therapeutic application of recombinant interferon-gamma (rIFN-gamma) in dermatology. Simultaneously, our own experiences are presented for 57 patients (phase II study) suffering from genital warts (21 patients), psoriatic arthritis (10 patients), psoriasis vulgaris (three patients), malignant melanoma (six patients), bowenoid papulosis (four patients), Behcet's disease (four patients), basal cell carcinoma (six patients), as well as herpes simplex recidivans, epidermodysplasia verruciformis, and mycosis fungoides (one patient each). We conclude that there might be an indication for treatment with rIFN-gamma in genital warts, bowenoid papulosis, Behcet's disease, and microbial infections, such as leprosy and cutaneous leishmaniasis. Even though there are reports of a limited beneficial effect of rIFN-gamma on arthritis and skin lesions in psoriasis, we failed to observe any in 10 patients. The main side effects in our low-dose study (50-100 micrograms/d) were mild fever (78%), fatigue (78%), and myalgia (65%). Laboratory tests revealed an increase in the serum triglyceride level, in particular, in psoriatic patients.

Recombinant murine interferon-gamma inhibits the fusion of mouse alveolar macrophages in vitro but stimulates the formation of osteoclastlike cells on implanted syngeneic bone particles in mice in vivo

Osteoclasts are multinucleated cells that originate from the fusion of mononuclear precursors and are responsible for bone resorption. Indirect evidence from in vitro studies suggests that IFN-gamma and TNF-alpha inhibit and stimulate bone resorption, respectively, but contradictory results have emerged from the literature regarding the effects of IFN-gamma on macrophage multinucleation. Using highly sensitive model systems, the present work demonstrates that, in mice, rMuIFN-gamma inhibits the fusion of alveolar macrophages in vitro but augments the number of osteoclastlike cells on implanted syngeneic bone particles in vivo. Although rMuTNF-alpha fails to stimulate macrophage multinucleation in either system, treatment of implanted animals with rMuIFN-gamma appears to limit the inflammatory reaction and favor tissue repair.