Tissue-nonspecific alkaline phosphatase is an anti-inflammatory nucleotidase.

Tissue-nonspecific alkaline phosphatase (TNAP) is necessary for skeletal mineralization by its ability to hydrolyze the mineralization inhibitor inorganic pyrophosphate (PPi), which is mainly generated from extracellular ATP by ectonucleotide pyrophosphatase phosphodiesterase 1 (NPP1). Since children with TNAP deficiency develop bone metaphyseal auto-inflammations in addition to rickets, we hypothesized that TNAP also exerts anti-inflammatory effects relying on the hydrolysis of pro-inflammatory adenosine nucleotides into the anti-inflammatory adenosine. We explored this hypothesis in bone metaphyses of 7-day-old Alpl+/- mice (encoding TNAP), in mineralizing hypertrophic chondrocytes and osteoblasts, and non-mineralizing mesenchymal stem cells (MSCs) and neutrophils, which express TNAP and are present, or can be recruited in the metaphysis. Bone metaphyses of 7-day-old Alpl+/- mice had significantly increased levels of Il-1ß and Il-6 and decreased levels of the anti-inflammatory Il-10 cytokine as compared with Alpl+/+ mice. In bone metaphyses, murine hypertrophic chondrocytes and osteoblasts, Alpl mRNA levels were much higher than those of the adenosine nucleotidases Npp1, Cd39 and Cd73. In hypertrophic chondrocytes, inhibition of TNAP with 25 µM of MLS-0038949 decreased the hydrolysis of AMP and ATP. However, TNAP inhibition did not significantly modulate ATP- and adenosine-associated effects in these cells. We observed that part of TNAP proteins in hypertrophic chondrocytes was sent from the cell membrane to matrix vesicles, which may explain why TNAP participated in the hydrolysis of ATP but did not significantly modulate its autocrine pro-inflammatory effects. In MSCs, TNAP did not participate in ATP hydrolysis nor in secretion of inflammatory mediators. In contrast, in neutrophils, TNAP inhibition with MLS-0038949 significantly exacerbated ATP-associated activation and secretion of IL-1ß, and extended cell survival. Collectively, these results demonstrate that TNAP is a nucleotidase in both hypertrophic chondrocytes and neutrophils, and that this nucleotidase function is associated with autocrine effects on inflammation only in neutrophils.

Imported malaria in pregnant women: report from a French University Centre.

OBJECTIVE: To describe malaria during pregnancy outside endemic areas. MATERIALS AND METHODS: We retrospectively reviewed all cases of imported malaria during pregnancy, diagnosed over a 11-year period in a French hospital. RESULTS AND CONCLUSION: We recovered 18 cases, all from sub-Saharan countries. The infection could appear distantly from arrival in France (up to 36 months), was asymptomatic in 3 cases, with anemia being the most common marker of infection (n = 14). The adverse consequences for the fetus (n = 3) or the newborn (n = 4) were frequent. Physicians should be aware of these atypical presentations in order to anticipate the diagnosis and improve the maternal and fetal prognosis.

Impact of HIV Infection Status on Interpretation of Quantitative PCR for Detection of Pneumocystis jirovecii.

Quantitative PCR (qPCR) is now a key diagnostic tool for Pneumocystis pneumonia. However, cutoffs to distinguish between infected and colonized patients according to their HIV status have not yet been determined. According to clinical, radiological, and biological data, we retrospectively classified bronchoalveolar lavage (BAL) samples subjected to qPCR over a 3-year period into four categories, i.e., definite PCP, probable PCP, Pneumocystis colonization, and no infection. Fungal burden was then analyzed according to the HIV status of the patients. Among 1,212 episodes of pneumonia screened in immunocompromised patients, 52 and 27 HIV-positive patients were diagnosed with a definite and probable PCP, whereas 4 and 22 HIV-negative patients had definite and probable PCP, respectively. Among patients with definite or a probable PCP, HIV-negative patients had a significantly lower burden than HIV-positive patients (P < 10(-4)). In both groups, the median fungal burden was significantly higher in patients with definite PCP than in colonized patients. A single cutoff at 1.5 × 10(4) copies/ml allowed to differentiate colonized and infected HIV-positive patients with 100% sensitivity and specificity. In HIV-negative patients, cutoff values of 2.87 × 10(4) and 3.39 × 10(3) copies/ml resulted in 100% specificity and sensitivity, respectively. Using cutoffs determined for the whole population would have led us to set aside the diagnosis of PCP in 9 HIV-negative patients with definite or probable PCP. qPCR appeared to be the most sensitive test to detect Pneumocystis in BAL samples. However, because of lower inocula in HIV-negative patients, different cutoffs must be used according to the HIV status to differentiate between colonized and infected patients.

What understanding tendon cell differentiation can teach us about pathological tendon ossification.

Tendons are the structures that attach muscles to bones and transmit mechanical forces. Tendon cells are composed of mature tenocytes and a rare population of tendon stem cells. Both cell types ensure homeostasis and repair of tendon extracellular matrix to guarantee its specific mechanical properties. Moreover, tendon cells seem to present a marked potential for trans-differentiation, predominantly into the chondrocyte and osteoblast lineages. In this review article, we first present chronic tendon pathologies associated with abnormal ossification, such as spondyloarthritis and calcifying tendinopathy, and discuss how tendon cell differentiation and trans-differentiation may participate in these diseases. We moreover present the factors known to influence tendon cell differentiation and trans-differentiation, with a particular emphasis on extracellular environment, mechanical stimulation and several soluble factors that can tip the balance toward one or another lineage. A better understanding of the neglected tendon cell biology may be extremely useful to understand the pathological mechanisms of spondyloarthritis and calcifying tendinopathy.

Inflammation: a culprit for vascular calcification in atherosclerosis and diabetes.

It is today acknowledged that aging is associated with a low-grade chronic inflammatory status, and that inflammation exacerbates age-related diseases such as osteoporosis, Alzheimer's disease, atherosclerosis and type 2 diabetes mellitus (T2DM). Vascular calcification is a complication that also occurs during aging, in particular in association with atherosclerosis and T2DM. Recent studies provided compelling evidence that vascular calcification is associated with inflammatory status and is enhanced by inflammatory cytokines. In the present review, we propose on one hand to highlight the most important and recent findings on the cellular and molecular mechanisms of vascular inflammation in atherosclerosis and T2DM. On the other hand, we will present the effects of inflammatory mediators on the trans-differentiation of vascular smooth muscle cell and on the deposition of crystals. Since vascular calcification significantly impacts morbidity and mortality in affected individuals, a better understanding of its induction and development will pave the way to develop new therapeutic strategies.

Autocrine stimulation of osteoblast activity by Wnt5a in response to TNF-α in human mesenchymal stem cells.

Although anti-tumor necrosis factor (TNF)-α treatments efficiently block inflammation in ankylosing spondylitis (AS), they are inefficient to prevent excessive bone formation. In AS, ossification seems more prone to develop in sites where inflammation has resolved following anti-TNF therapy, suggesting that TNF-α indirectly stimulates ossification. In this context, our objectives were to determine and compare the involvement of Wnt proteins, which are potent growth factors of bone formation, in the effects of TNF-α on osteoblast function. In human mesenchymal stem cells (MSCs), TNF-α significantly increased the levels of Wnt10b and Wnt5a. Associated with this effect, TNF-α stimulated tissue-non specific alkaline phosphatase (TNAP) and mineralization. This effect was mimicked by activation of the canonical ß-catenin pathway with either anti-Dkk1 antibodies, lithium chloride (LiCl) or SB216763. TNF-α reduced, and activation of ß-catenin had little effect on expression of osteocalcin, a late marker of osteoblast differentiation. Surprisingly, TNF-α failed to stabilize ß-catenin and Dkk1 did not inhibit TNF-α effects. In fact, Dkk1 expression was also enhanced in response to TNF-α, perhaps explaining why canonical signaling by Wnt10b was not activated by TNF-α. However, we found that Wnt5a also stimulated TNAP in MSCs cultured in osteogenic conditions, and increased the levels of inflammatory markers such as COX-2. Interestingly, treatment with anti-Wnt5a antibodies reduced endogenous TNAP expression and activity. Collectively, these data suggest that increased levels of Dkk1 may blunt the autocrine effects of Wnt10b, but not that of Wnt5a, acting through non-canonical signaling. Thus, Wnt5a may be potentially involved in the effects of inflammation on bone formation.

[Malaria among immigrants, experience of a Parisian hospital (2006-2010)]. / Paludisme chez les migrants, expérience d'un hôpital parisien (2006-2010).

In recent days immigrants represent the main risk group for imported malaria in northern countries. Most of them are migrants returning to their country of origin to visit friends and relatives (VFR). We retrospectively examined the main clinical, biological, and therapeutic data of all malaria cases in immigrants from 2006 to 2010 in Tenon hospital, Paris. The hospital is situated in a Paris district with an important African community. During the study period 239 imported malaria cases were observed in adults of which 199 were immigrants, 186 VFR, and 13 recently arrived. Most cases were from sub-Saharan Africa and Comoro islands. Chimioprophylaxis was not taken in 81.2% of VFR. It was inadequate in 43.7% and not taken correctly in 84.4%. Plasmodium falciparum was the most frequent species identified: 190/199 (95.5%). Severe P. falciparum malaria was observed in 25 cases (13.2%); two of them were recently arrived. One patient, African VFR, died. In this series two high-risk groups were represented: HIV-infected patients and pregnant women. Six of the HIV patients had severe malaria and all pregnant women had anemia. Our results are similar to those observed recently in other European countries. Mean age of VFR is increasing and the risk for severe P. falciparum malaria became identical to the one observed in non-immune travelers. Protection measures remain still insufficient in this population of travelers.

Ankylosing spondylitis, late osteoarthritis, vascular calcification, chondrocalcinosis and pseudo gout: toward a possible drug therapy.

In this review we consider diseases associated with pathological mineralization/ossification, namely, ankylosing spondylitis (AS), osteoarthritis (OA), generalized artery calcification of infancy (GACI), vascular calcification as well as chondrocalcinosis (CC) and pseudo gout. Deciphering the key enzymes implicated in the calcification process is an objective of prime importance and the ultimate goal is to synthesize inhibitors of these enzymes in order to provide efficient alternate therapeutic strategies that will slow down the pathologic mineralization and complement the arsenal of anti-inflammatory drugs. One of the difficulties in the definition of diseases associated with pathologic mineralization/ossification lies in the controversial relationship between the type of calcification and the nature of the disease. Here, we propose to clarify this relationship by making a distinction between diseases associated with hydroxyapatite (HA) and calcium pyrophosphate dihydrate (CPPD) deposits. AS, OA, GACI and vascular calcification are usually characterized by mineralization/ossification associated with HA deposits, while CC and pseudo gout are mostly characterized by CPPD deposits. Although both HA and CPPD deposits may occur concomitantly, as in chronic pyrophosphate arthritis or in OA with CPPD, they are formed as a result of two antagonistic processes indicating that treatment of distinct diseases can be only achieved by disease-specific drug therapies. The hydrolysis of PPi, an inhibitor of HA formation, is mostly controlled by tissue non-specific alkaline phosphatase TNAP, while PPi production in the extracellular medium is controlled by ANK, a PPi transporter, and/or NPP1 which generates PPi from nucleotide triphosphates. Low PPi concentration may lead to a preferential deposition of HA while high PPi concentration will favor the formation of CPPD deposits. Thus, HA and CCPD deposition cannot occur concomitantly because they are determined by the Pi/PPi ratio which, in turn, depends on the relative activities of antagonistic enzymes, TNAP hydrolyzing PPi or ANK and NPP1 producing PPi. TNAP inhibitors could prevent HA formation in AS, in late OA, in GACI, as well as in vascular calcifications, while ANK or NPP1 inhibitors could slow down CCPD deposition in CC and pseudo gout.

Pneumocystosis: a network survey in the Paris area 2003-2008.

The aims of this network group were to collect epidemiological data of PcP cases in 14 hospitals in the Paris area and to determine the Di-Hydro Pteroate Synthase (DHPS) genotypes, genetic markers for possible sulfamide resistance. From January 1, 2003 to December 31, 2008, 993 (mean 166/year) PcP cases have been reported. Sixty-five percent of patients were HIV-positive. The median count of CD4 lymphocytes was 32/mm(3) (30 in HIV-positive patients, 152 in HIV-negative patients). In HIV-positive patients, PcP revealed the HIV infection in 39%. Among 304 PcP occurring in HIV known infected patients, no prophylaxis was prescribed for 64%; cotrimoxazole prophylaxis had been prescribed to 47 patients but only one of them had the right compliance. In HIV-negative patients (264), corticosteroids were prescribed in 59% and cytotoxic chemotherapies in 34%; 78% did not receive prophylaxis. One hundred sixty nine tumoral pathologies and 116 transplantations were notified. The mortality rate was 16% at day 14 (13% in HIV-positive patients, 26% in HIV-negative patients). Mutations in DHPS genes were detected in 18.5% of samples; 12.5% of patients were infected with several strains. The total annual number of cases has been stable for five years but the proportion of HIV-negative patients increased from 25% to 43%.

TNF-α stimulates alkaline phosphatase and mineralization through PPARγ inhibition in human osteoblasts.

The aims of the present study were to determine whether prostaglandins (PGs) and PPARγ are involved in the stimulation of tissue-non-specific alkaline phosphatase (TNAP) activity and mineralization by TNF-α in human osteoblasts. We used osteoblasts differentiated from MSCs from three different donors and MG-63 osteoblast-like cells. Inhibition of prostaglandin synthesis with the cyclooxygenase (COX) inhibitor indomethacin or the specific COX-2 blocker NS-398 abolished mineralization in the absence and presence of 1 ng/ml of TNF-α, suggesting that PGs were involved. The TNAP inhibitor levamisole abolished TNF-α effects on mineralization, suggesting that PGs were involved in TNAP expression and mineralization. TNF-α stimulated expression of COX-2 and PG E synthase before that of TNAP, but expression of PG D synthase later suggesting that PGE2 and PGF2α but not 15d-PGJ2 were involved in TNF-α effects. However, both PGE2 and PGF2α dose-dependently inhibited mineralization indicating that endogenous PG are required for mineralization but that TNF-α does not increase mineralization by increasing PG synthesis. Interestingly, TNF-α inhibited PPARγ expression and binding activity to PPRE consensus sequences independently of 15d-PGJ2. Inhibition of PPARγ activity with GW-9662 mimicked TNF-α effects in MG-63 cells, indicating that TNF-α stimulates mineralization by inhibiting PPARγ in osteoblasts. In MSC-derived osteoblast cultures, inhibition of PPARγ dropped TNAP expression and mineralization. Treatment of MG-63 cells with conditioned media from MSC-derived osteoblasts or MSC-derived adipocytes treated or not with GW-9662 revealed that TNF-α inhibition of PPARγ in undifferentiated MSCs and/or adipocytes was responsible for the decreased expression of TNAP in osteoblasts. In conclusion, TNF-α increases TNAP expression and stimulates mineralization by inhibiting PPARγ in osteoblasts, but PPARγ in adipocytes or undifferentiated MSCs controls the secretion of a factor leading to TNAP stimulation in osteoblasts.

Inflammaging: the driving force in osteoporosis?

With advancing age, the balance between the amounts of old bone removed and new bone formed during the remodelling process becomes negative. In the past, it was commonly thought that skeletal involution was the result of age-related changes in other organs, and in particular from the decline in ovarian function in women at menopause. Nonetheless, with regard to emerging epidemiologic studies, the hypothesis suggesting that age-related changes such as inflammatory modifications importantly account for age-related bone loss is gaining increasing interest. Aging is indeed associated with immune dysfunction that coexists with a chronic subclinical inflammatory status. The latter is illustrated by a 2-4-fold increase in the levels C-reactive protein (CRP) or interleukin (IL)-6. This inflammatory status, which has been referred to by the neologism "inflammaging", is of sufficient magnitude to impact health and survival time, and correlates with age-related diseases such as atherosclerosis, insulin resistance and Alzheimer's disease. In this article, we first present the factors that condition inflammaging, and propose the hypothesis that inflammaging may be the driving force in age-related bone loss and may even be responsible for osteoporosis due to estrogen deficiency. Finally, we discuss the possibility that pro-inflammatory biomarkers may be used to provide clinical information for identifying patients at risk for osteoporosis, and the possibility that inflammatory cytokines may be targeted to improve bone formation in aged patients undergoing orthopaedic surgery.

IL-33 is expressed in human osteoblasts, but has no direct effect on bone remodeling.

The aim of the present study was to investigate the potential role of the recently discovered IL-1 family member IL-33 in bone remodeling. Our results indicate that IL-33 mRNA is expressed in osteocytes in non-inflammatory human bone. Moreover, IL-33 levels are increased by TNF-α and IL-1ß in human bone marrow stromal cells, osteoblasts and adipocytes obtained from three healthy donors. Experiments with the inhibitor GW-9662 suggested that expression of IL-33, in contrast to that of IL-1ß, is not repressed by PPARγ likely explaining why IL-33, but not IL-1ß, is expressed in adipocytes. The IL-33 receptor ST2L is not constitutively expressed in human bone marrow stromal cells, osteoblasts or CD14-positive monocytes, and IL-33 has no effect on these cells. In addition, although ST2L mRNA is induced by TNF-α and IL-1ß in bone marrow stromal cells, IL-33 has the same effects as TNF-α and IL-1ß, and, therefore, the biological activity of IL-33 may be redundant in this system. In agreement with this hypothesis, MC3T3-E1 osteoblast-like cells constitutively express ST2L mRNA, and IL-33 and TNF-α/IL-1ß similarly decrease osteocalcin RNA levels in these cells. In conclusion, our results suggest that IL-33 has no direct effects on normal bone remodeling.

Do cytokines induce vascular calcification by the mere stimulation of TNAP activity?

Vascular calcification occurs during aging in the general population and is increased in the intima by atherosclerosis and in the media by diabetes type 2. In both intima and media, calcification may lead to the formation of a tissue very similar if not identical to bone, with bone cells and bone marrow. Since vascular calcification is associated with cardiovascular complications, a better understanding of the inducing mechanisms could lead to the development of new therapeutic strategies. Many studies have provided evidence for a role of inflammation and inflammatory cytokines such as tumour necrosis factor (TNF)-α and interleukin (IL)-1ß in the vascular calcification process. TNF-α and IL-1ß have indeed been shown to stimulate in vitro the expression by vascular smooth muscle cells (VSMCs) of tissue-non specific alkaline phosphatase (TNAP), a key enzyme in the mineralization process, and to trigger the trans-differentiation of VSMCs into osteoblast-like cells, expressing the master transcription factor RUNX2. These data are however somewhat contradictory with the known inhibitory effects of inflammatory cytokines on bone formation. TNF-α for instance dramatically decreases RUNX2 RNA expression, protein stability and activity, and as a consequence, is a potent inhibitor of osteoblast differentiation and bone formation. In the present article, we propose a new hypothesis to explain this calcification paradox. We propose that cytokines block bone formation by decreasing RUNX2-mediated type I collagen production in osteoblasts, whereas they induce vascular ossification by the mere stimulation of TNAP by VSMCs, independently of RUNX2. We propose that this stimulation of TNAP in VSMCs in vitro and in vivo may be sufficient to induce the calcification of collagen fibrils, and that the absence of crystal clearance, in turn, induces the differentiation of VSMCs and/or mesenchymal stem cells into bone-forming cells, eventually leading to formation of a bone-like tissue. In case future experimental studies support this hypothesis, the early stimulatory and late inhibitory effects of inflammation on vascular calcification will have to be taken into consideration in the development of new therapeutic strategies.

Evaluation of a rapid enzyme-linked immunosorbent assay for diagnosis of strongyloidiasis.

Diagnosis of strongyloidiasis using stool examination remains unsatisfactory due to the lack of sensitivity and fastidious techniques. In this work, we investigated the value of an anti-Strongyloides IgG enzyme immunoassay (EIA), using a panel of 207 sera retrospectively collected from patients with definitive diagnoses of strongyloidiasis (n=57), other helminthic infections (n=46), eosinophilia without parasitic infection diagnosis (n=54), and digestive disturbances following a tropical journey (n=30) and from 20 negative controls. By following a receiver operating characteristic (ROC) curve analysis, it was possible to optimize the test to reach a sensitivity of 91.2% and a specificity of 93.3%, with 92.8% of patients correctly classified. Considering the incidence of strongyloidiasis diagnosed in our own laboratory, the negative predictive value was calculated at 99.9%. In conclusion, this test is very rapid and easy to perform and may be valuable for diagnosis of strongyloidiasis both in cases where the infection is unrevealed by a parasitological stool examination and in patients at risk for severe clinical forms, such as patients receiving immunosuppressive therapy.

TNF-alpha and IL-1beta inhibit RUNX2 and collagen expression but increase alkaline phosphatase activity and mineralization in human mesenchymal stem cells.

AIMS: Joint inflammation leads to bone erosion in rheumatoid arthritis (RA), whereas it induces new bone formation in spondyloarthropathies (SpAs). Our aims were to clarify the effects of tumour necrosis factor alpha (TNF-alpha) and interleukin 1beta (IL-1beta) on osteoblast differentiation and mineralization in human mesenchymal stem cells (MSCs). MAIN METHODS: In MSCs, expression of osteoblast markers was assessed by real-time PCR and ELISA. Activity of tissue-nonspecific alkaline phosphatase (TNAP) and mineralization were determined by the method of Lowry and alizarin red staining respectively. Involvement of RUNX2 in cytokine effects was investigated in osteoblast-like cells transfected with a dominant negative construct. KEY FINDINGS: TNF-alpha (from 0.1 to 10 ng/ml) and IL-1beta (from 0.1 to 1 ng/ml) stimulated TNAP activity and mineralization in MSCs. Addition of 50 ng/ml of IL-1 receptor antagonist in TNF-alpha-treated cultures did not reverse TNF-alpha effects, indicating that IL-1 was not involved in TNF-alpha-stimulated TNAP activity. Both TNF-alpha and IL-1beta decreased RUNX2 expression and osteocalcin secretion, suggesting that RUNX2 was not involved in mineralization. This hypothesis was confirmed in osteoblast-like cells expressing a dominant negative RUNX2, in which TNAP expression and activity were not reduced. Finally, since mineralization may merely rely on increased TNAP activity in a collagen-rich tissue, we investigated cytokine effects on collagen expression, and observed that cytokines decreased collagen expression in osteoblasts from MSC cultures. SIGNIFICANCE: The different effects of cytokines on TNAP activity and collagen expression may therefore help explain why inflammation decreases bone formation in RA whereas it induces ectopic ossification from collagen-rich entheses during SpAs.

Engineering cartilage with human nasal chondrocytes and a silanized hydroxypropyl methylcellulose hydrogel.

Tissue engineering strategies, based on developing three-dimensional scaffolds capable of transferring autologous chondrogenic cells, holds promise for the restoration of damaged cartilage. In this study, the authors aimed at determining whether a recently developed silanized hydroxypropyl methylcellulose (Si-HPMC) hydrogel can be a suitable scaffold for human nasal chondrocytes (HNC)-based cartilage engineering. Methyltetrazolium salt assay and cell counting experiments first revealed that Si-HPMC enabled the proliferation of HNC. Cell tracker green staining further demonstrated that HNC were able to form nodular structures in this three-dimensional scaffold. HNC phenotype was then assessed by RT-PCR analysis of type II collagen and aggrecan expression as well as alcian blue staining of extracellular matrix. Our data indicated that Si-HPMC allowed the maintenance and the recovery of a chondrocytic phenotype. The ability of constructs HNC/Si-HPMC to form a cartilaginous tissue in vivo was finally investigated after 3 weeks of implantation in subcutaneous pockets of nude mice. Histological examination of the engineered constructs revealed the formation of a cartilage-like tissue with an extracellular matrix containing glycosaminoglycans and type II collagen. The whole of these results demonstrate that Si-HPMC hydrogel associated to HNC is a convenient approach for cartilage tissue engineering.

Phosphate stimulates matrix Gla protein expression in chondrocytes through the extracellular signal regulated kinase signaling pathway.

Whereas increasing evidence suggests that inorganic phosphate (Pi) may act as a signaling molecule in mineralization-competent cells, its mechanisms of action remain largely unknown. The aims of the present work were to determine whether Pi regulates expression of matrix Gla protein (MGP), a mineralization inhibitor, in growth plate chondrocytes and to identify the involved signaling pathways. Chondrogenic ATDC5 cells and primary growth plate chondrocytes were used. Messenger RNA and protein analyses were performed by quantitative PCR and Western blotting, respectively. The activation and role of MAPKs were, respectively, determined by Western blotting and the use of specific inhibitors. Immunohistological detection of ERK1/2 was performed in rib organ cultures from newborn mice. The results indicate that Pi markedly stimulates expression of MGP in ATDC5 cells and primary growth plate chondrocytes. Investigation of the involved intracellular signaling pathways reveals that Pi activates ERK1/2 in a cell-specific manner, because the stimulation was observed in ATDC5 and primary chondrocytes, MC3T3-E1 osteoblasts, and ST2 stromal cells, but not in L929 fibroblasts or C2C12 myogenic cells. Accordingly, immunohistological detection of ERK1/2 phosphorylation in rib growth plates revealed a marked signal in chondrocytes. Finally, a specific ERK1/2 inhibitor, UO126, blocks Pi-stimulated MGP expression in ATDC5 cells, indicating that ERK1/2 mediates, mainly, the effects of Pi. These data demonstrate, for the first time, that Pi regulates MGP expression in growth plate chondrocytes, thereby suggesting a key role for Pi and ERK1/2 in the regulation of bone formation.

The active metabolite of leflunomide, A77 1726, increases proliferation of human synovial fibroblasts in presence of IL-1beta and TNF-alpha.

OBJECTIVE AND DESIGN: Excessive synovial fibroblast (SF) proliferation is detrimental in rheumatoid arthritis. We therefore sought to determine the effects of A77 1726, the active metabolite of leflunomide, on SF proliferation. METHODS: Human SFs were used. Cell proliferation was investigated using MTS assay, by (3)H-thymidine incorporation and cell counts. RESULTS: Whereas A77 1726 alone had no effects, it significantly increased the mitogenic effects of interleukin-1beta (IL-1beta) and tumor necrosis factor-alpha (TNF-alpha). Cyclooxygenase inhibition might be at least partly involved, since indomethacin displayed similar effects, and since prostaglandin E2 inhibited SF proliferation. In contrast, the effect of A77 1726 did not appear to be mediated through depletion of the pyrimidine pool or inhibition of tyrosine kinases. CONCLUSION: A77 1726 displays proliferative effects in presence of IL-1beta and TNF-alpha. Further elucidation of involved mechanisms may prove useful for the utilization of leflunomide, the development of related compounds or elaboration of new therapeutic strategies.