The role of crystals in osteoarthritis

Osteoarthritis

The clinical appearance and radiological pattern of osteoarthritis have been identified in the skeletons of dinosaurs some 50-70 million years old, and in Egyptian mummies, and in ancient skeletons in England. Osteoarthritis patterns of joint involvement, often referred to as primary osteoarthritis, can be seen in the hands, spinal facet joints, hips, knees and feet, but can also be termed secondary osteoarthritis when seen in any joint that has had trauma, sepsis, surgery or metabolic insult. The prevalence of osteoarthritis increases with age. The histology and pathophysiology both demonstrate an inflammatory process. While there have been studies of genetic predisposition, the basic cause of primary osteoarthritis has not been determined.

Mineralized deposits in the uterus of a pig without pregnancy loss

Herein, we describe a case of uterine calcification in the uterus of a pig without pregnancy loss. The recipient underwent cloned embryo transfer and Cesarean section for safe delivery of cloned piglets. During the Cesarean section, 4 white, star-like, (2 × 2 × 2) cm, calcified structures were found within the endometrial cavity. Despite dystrophic calcification around the placenta, healthy cloned piglets were produced successfully. To our knowledge, this is the first reported case of dystrophic calcification occurring within the uterus in a pregnant pig.

Extracellular Vesicles and Autophagy in Osteoarthritis

Osteoarthritis (OA) is a type of chronic joint disease that is characterized by the degeneration and loss of articular cartilage and hyperplasia of the synovium and subchondral bone. There is reasonable knowledge about articular cartilage physiology, biochemistry, and chondrocyte metabolism. However, the etiology and pathogenesis of OA remain unclear and need urgent clarification to guide the early diagnosis and treatment of OA. Extracellular vesicles (EVs) are small membrane-linking particles that are released from cells. In recent decades, several special biological properties have been found in EV, especially in terms of cartilage. Autophagy plays a critical role in the regulation of cellular homeostasis. Likewise, more and more research has gradually focused on the effect of autophagy on chondrocyte proliferation and function in OA. The synthesis and release of EV are closely associated with autophagy. At the same time, both EV and autophagy play a role in OA development. Based on the mechanism of EV and autophagy in OA development, EV may be beneficial in the early diagnosis of OA; on the other hand, the combination of EV and autophagy-related regulatory drugs may provide insight into possible OA therapeutic strategies.

Determination of calcium in synovial fluid samples as an aid to diagnosing osteoarthritis

BACKGROUND

Microscopic inorganic crystals are commonly observed in the synovial fluid of patients suffering from arthritic diseases. Basic calcium phosphate (BCP) crystals are known to occur quite commonly in the joint fluid of osteoarthritis (OA) patients and are insoluble at physiological pH. Current analysis of patient synovial fluid depends on light microscopy and staining with Alizarin Red-S. Both methods cannot identify crystals < 1µm in size and are highly subjective. This article investigates the use of o-cresolphthalein complexone (OCP), a colorimetric reagent, to quantify calcium from crystals isolated from synovial fluid samples as a means of identifying the presence of BCP and, hence, improving the diagnosis of OA.

RESULTS

Inorganic crystals were isolated following degradation of the biological sample matrix with hyaluronidase. 1-M HNO(3) was used for crystal dissociation into ions and the colorimetric response of OCP to calcium was measured in a basic environment of 2-amino-2-methyl-1-propanol. The average calcium content in OA patient samples was up to 40% higher than in rheumatoid arthritis (RA) patient samples. RA samples were used as a comparison, because they are generally accepted to be crystal free. Within the OA group, higher levels of calcium were detected in three out of 12 synovial fluid samples, which correlated with a significantly greater number of BCP crystals detected during microscopic examination.

CONCLUSIONS

A simple method based on colorimetry for measurement of calcium content and semiquantification of BCP crystals in synovial fluid samples has been described. Sample pretreatment following addition of hyaluronidase proved to be effective in reducing viscosity and aiding the dissociation of BCP crystals in synovial fluid samples.

Calcification of human articular knee cartilage is primarily an effect of aging rather than osteoarthritis

OBJECTIVE

Pathologic calcification of articular cartilage in human knees is often associated with advanced age and conditions of osteoarthritis (OA). Coincidently, most studies that have characterized calcification in joint cartilage have examined populations that are aged and presenting with clinical symptoms. Generally, these studies rely upon relatively insensitive plain radiographs or synovial fluid crystal analyses to quantify calcium levels. The purpose of this study was to examine the relationship between cartilage calcification and aging in an unselected donor population of diverse age using highly sensitive calcification imaging.

METHODS

A group of 106 knee blocks were obtained from 56 individual donors (25 females and 31 males, aged 12-74, avg. 50.3 years). Condylar surfaces were graded on a 4-point OA grading scale for cartilage degeneration. The condyles were cut into approximately 7-10mm thick slabs. Using a Faxitron radiography system, high-resolution images were taken of the slabs to specifically image calcification in cartilage. The quantified calcification areas were then analyzed and correlations with both OA grade and age were assessed.

RESULTS

Every knee presented some measurable calcification. The relative calcium deposition had a significant positive correlation with age. This same positive correlation was seen between condyles showing grade 1 and 2 changes. OA grades higher than 2 did not present any further significant increase in calcium levels.

CONCLUSION

These observations indicate that age rather than OA is the predominant factor driving progressive pathologic calcification in articular cartilage.

Crystal-Associated Arthritis in the Elderly

Since the original recognition of these conditions in 1961, a great deal has been learned about the pathogenesis, clinical manifestations, and appropriate treatment of gout and pseudogout, and the role of crystals in osteoarthritis has been further defined. The variable manifestations of crystal-induced arthritis in elderly populations has led to a greater need for proper diagnosis and treatment strategies for these increasingly common forms of arthritis.

Calcium crystal deposition and osteoarthritis

Calcium crystals are common and under-recognized participants in osteoarthritis. Excellent evidence supports two hypotheses explaining the relationship between calcium crystal deposition and osteoarthritis. There is ample support for the theory that calcium crystals cause or worsen osteoarthritis and equally compelling evidence to support the theory that osteoarthritis causes or worsens calcium crystal formation. Further research in this area will improve understanding of the pathogenesis of these conditions and should lead to the development of effective therapy for all types of degenerative arthritis.

New biochemical insights into the pathogenesis of osteoarthritis and the role of laboratory investigations in clinical assessment

Osteoarthritis (OA) is among the most frequent diseases in the population and a common cause of pain and disability in adults. The principal disease hallmarks for assessment of OA are still clinical observation and radiographic aspects. However, the efficacy of therapeutic interventions is complicated by the time required to observe radiographic signs, useful for both diagnosis and assessment. Thus, laboratory markers have received growing attention in recent years, in an attempt to improve diagnosis, assessment of disease activity and severity, and evaluation of therapeutic effects. Many biomarkers have been proposed, in particular those reflecting cartilage and bone turnover and synovitis. Among these, COMP, antigenic keratan sulphate, hyaluronan, YKL-40, type III collagen N-propeptide, and urinary glucosyl-galactosyl pyridinoline appear to be the most promising. However, serum or urinary determinations of these molecules are difficult to interpret adequately due to their complex metabolism. New ultrasensitive methods for C-reactive protein have improved the usefulness of this marker, especially in the assessment of disease activity. Routine examination of synovial fluid is still essential for diagnosis and includes leukocyte count and crystal detection; specialized testing includes the evaluation of the levels of markers of local inflammation such as metalloproteinases and cytokines, which appear to be crucial to the pathogenesis of OA.

Crystal-Associated Arthritis in the Elderly

Since the original descriptions of the involvement of crystals in arthritis, our understanding of the clinical syndromes of gout and pseudogout, and the role of basic calcium crystals in arthritis has increased. Gout is usually considered an affliction confined to middle-aged men, but has an increasing prevalence in older populations, with unique and often atypical features. Calcium pyrophosphate dihydrate crystal deposition disease is common in elderly patients. The diagnosis of both of these common forms of arthritis and the need to individualize therapy in patients with other medical problems remain important clinical challenges to the practicing physician.

Molecular dynamics simulation studies of the effect of phosphocitrate on crystal-induced membranolysis

In this study, following our earlier work on calcium pyrophosphate dihydrate (CPPD) crystal-induced membranolysis, we demonstrate, using the CHARMM method of molecular dynamics simulation, the protective role of phosphocitrate (PC) against solvated dimyristoyl phosphatidylcholine phospholipid bilayer disintegration on contact with the CPPD crystal. Our molecular dynamics simulations studies show that coverage of the CPPD crystal with a layer of phosphocitrate molecules results in the conservation of phospholipid bilayer integrity. We show that the rupture of the lipid bilayer in presence of CPPD and the protective effect of PC are primarily due to electrostatic interactions. The protective role of PC, which may also play an important and potentially therapeutic function against crystal-induced membranolysis is also discussed.

Calcium-containing crystals and osteoarthritis: implications for the clinician

The clinical implication of articular deposits of calcium-containing crystals (specifically of calcium pyrophosphate dihydrate and hydroxyapatite) in osteoarthritis is unknown. Recent longitudinal studies have suggested that in some instances calcium crystals are direct participants in cartilage damage, while in other situations they are merely markers of joint damage. Better understanding of the mechanisms of crystal formation, especially in relation to inorganic pyrophosphate regulation, has lead to potential avenues for therapeutic intervention. The current treatment of osteoarthritis associated with calcium-containing crystals should involve nonsteroidal anti-inflammatory drugs, intra-articular steroids, and in resistant cases, joint irrigation can be considered. While preliminary studies suggest the possibility of favorable benefits from colchicine and hydroxycholorquine in this osteoarthritis disease subset, more rigorous studies need to be conducted to establish their roles.

Role of the progressive ankylosis gene (ank) in cartilage mineralization

Mineralization of growth plate cartilage is a critical event during endochondral bone formation, which allows replacement of cartilage by bone. Ankylosis protein (Ank), which transports intracellular inorganic pyrophosphate (PP(i)) to the extracellular milieu, is expressed by hypertrophic and, especially highly, by terminally differentiated mineralizing growth plate chondrocytes. Blocking Ank transport activity or ank expression in terminally differentiated mineralizing growth plate chondrocytes led to increases of intra- and extracellular PP(i) concentrations, decreases of alkaline phosphatase (APase) expression and activity, and inhibition of mineralization, whereas treatment of these cells with the APase inhibitor levamisole led to an increase of extracellular PP(i) concentration and inhibition of mineralization. Ank-overexpressing hypertrophic nonmineralizing growth plate chondrocytes showed decreased intra- and extracellular PP(i) levels; increased mineralization-related gene expression of APase, type I collagen, and osteocalcin; increased APase activity; and mineralization. Treatment of Ank-expressing growth plate chondrocytes with a phosphate transport blocker (phosphonoformic acid [PFA]) inhibited uptake of inorganic phosphate (P(i)) and gene expression of the type III Na(+)/P(i) cotransporters Pit-1 and Pit-2. Furthermore, PFA or levamisole treatment of Ank-overexpressing hypertrophic chondrocytes inhibited APase expression and activity and subsequent mineralization. In conclusion, increased Ank activity results in elevated intracellular PP(i) transport to the extracellular milieu, initial hydrolysis of PP(i) to P(i), P(i)-mediated upregulation of APase gene expression and activity, further hydrolysis and removal of the mineralization inhibitor PP(i), and subsequent mineralization.

Calcium pyrophosphate dihydrate and basic calcium phosphate crystal-induced arthropathies: update on pathogenesis, clinical features, and therapy

Calcium-containing crystals are the most common class for the osteoarthritic joint. They are responsible for acute periarthritis and destructive arthropathies, and for tissue deposits mimicking tumor-like masses. These crystals encompassed mainly calcium pyrophosphate dihydrate and basic calcium phosphate crystals, with the latter being related to hydroxyapatite, carbonate-substituted apatite, and octacalcium phosphate. Calcification deposit mechanisms will be reviewed with respect to extracellular inorganic pyrophosphate dysregulation mainly caused by modulation of specific membrane channel disorders. Genetic defects have been extensively studied and identified mutation of specific genes such as ANKH and COL. Pathogenesis of crystal-induced inflammation is related to synovial tissue and direct cartilage activation. Besides classical knee or wrist pseudogout attacks or Milwaukee shoulder arthropathies, clinicians should be aware of other specific common presentations, such as erosive calcifications, spinal cord compression by intraspinal masses, ligamentum flavum calcification, or atypical calcified tophus. Promising clinical results for preventing calcium crystal deposits and cartilage degradation are lacking. Practical imaging tools are needed to monitor reduction of calcification of fibrocartilage and articular cartilage as markers of drug efficacy.

Basic Calcium Phosphate Crystals Activate p44/42 MAPK Signal Transduction Pathway via Protein Kinase Cμ in Human Fibroblasts

Although basic calcium phosphate (BCP) crystals are common in osteoarthritis, the crystal-induced signal transduction pathways in human fibroblasts have not been fully comprehended. We have previously demonstrated that the induction of matrix metalloproteinases (MMP) 1 and 3 by BCP crystals follows both the calcium-dependent protein kinase C (PKC) pathway and the calcium-independent p44/42 mitogen-activated protein kinase (p44/42 MAPK) pathway. Although we showed that the calcium-dependent PKC pathway was characterized by calcium-dependent PKCalpha, here we show that the calcium-independent p44/42 MAPK pathway is mediated by calcium-independent PKCmicro. Inhibition of PKCmicro synthesis and activity by antisense oligodeoxynucleotides and H-89 (N-(2-[p-bromocinnamylamino]ethyl)-5-isoquinolinesulfonamide), respectively, results in the inhibition of p44/42 MAPK activation, thus demonstrating that p44/42 MAPK activity is dependent upon PKCmicro. Reverse transcription-polymerase chain reaction and Western blotting also show that inhibition of PKCmicro results in the inhibition of MMP-1 and MMP-3 mRNA and protein expression as a result of p44/42 MAPK inhibition. These results now lead us to the conclusion that BCP crystal activation of human fibroblasts follows two pathways: 1) the calcium-dependent PKC pathway characterized by PKCalpha and 2) the calcium-independent p44/42 MAPK pathway mediated by PKCmicro, which operate independently leading to an increase in mitogenesis and MMP synthesis and ultimately complementing each other for the efficient regulation of cellular responses to BCP crystal stimulation of human fibroblasts.

Laboratory investigations in osteoarthritis

Progress in the knowledge of pathogenic mechanisms and a better definition of the disease, together with the availability of new technologies, have recently improved the value of laboratory investigations in osteoarthritis (OA). The main objectives of these findings are early diagnosis, assessment of disease activity and severity, and evaluation of therapeutic effects. In this context, biochemical markers are potentially useful, as they are non-invasive and non-expansive. However, among the numerous substances increasingly proposed for these purposes, very few may be considered as true disease markers in OA; COMP, antigenic keratan sulphate, hyaluronic acid, YKL-40, type III collagen N-propeptide and urinary glucosyl-galactosyl pyridinoline seem to be the most promising. However, serum or urinary determinations of these molecules are difficult to interpret adequately, due to their complex metabolism. Careful analysis of synovial fluid, mainly directed to leukocyte count and crystal detection, is still essential for diagnosis, but also for the evaluation of the levels of important markers of local inflammation, such as metalloproteinases and cytokines, which seem to be crucial in the pathogenesis of OA.

Joint irrigation as treatment for osteoarthritis

Irrigation is necessary to achieve distension and visualization of the joint during arthroscopy. Clinical improvement observed after diagnostic arthroscopy has been attributed to irrigation, and this is supported by sound pathophysiologic rationales. Studies have been performed using various irrigation techniques with and without concomitant arthroscopy. Unblinded studies have generally yielded favorable results, although recent blinded studies have demonstrated a substantial and durable placebo effect, but little support for the benefit of the irrigation procedure.

Synovial fluid features and their relations to osteoarthritis severity: new findings from sequential studies

OBJECTIVE

Many factors are involved in the osteoarthritic process. It is not yet known which are initiators, promoters or simply results. Thus, we have evaluated some of those potentially important factors in osteoarthritis (OA) as observed sequentially for the first time in synovial fluids.

DESIGN

Synovial fluids (SF) obtained between 1992-2002 were all routinely evaluated for gross appearance, leukocyte counts and microscopic examination of wet drop preparations. We used regular and polarized light and alizarin red s stains. We separated out all OA patients, then we looked for patients who had more than two synovial fluid analyses to get sequential information. Time between first and final aspiration ranged from 2 to 7 (3.6+/-1.6) years and number of analyses per patients from 3 to 6 (3.3+/-0.7). We related synovial fluid crystals, fibrils and white blood cell count (WBC) to age, sex, disease duration and radiographic assessment according to the Kellgren-Lawrence radiographic rating system.

RESULTS

Of 4523 synovial fluid examinations, we found 855 in patients with knee OA; 330 patients with adequate clinical details for comparison were included in our study. Twenty-six patients (one woman and 25 men) had sequentially examined SF. We found that 52% of those OA patients with effusions studied had crystals identified in their synovial fluid. Twenty-one percent of all the patients had CPPD crystals, 47% had hydroxyapatite, also called basic calcium phosphate (BCP) crystals and 16% had both types of crystals. Microscopically identifiable fibrils were found in 60% of SF. In sequentially examined patients, CPPD crystals and apatite (BCP) were found in 19% and 23%, respectively, at the first aspiration and, in 34% and 58% at the final aspiration. Fibrils were seen in 54% at first examination and 85% later. Apatite and fibrils showed more significant correlation with time (r=0.51,r =0.92) than did CPPD (r=0.32). SF WBC correlated only with CPPD crystals and did not increase with OA duration or severity. CPPD, apatite and fibrils all correlated with higher radiographic grades of OA.

CONCLUSIONS

As noted before CPPD and apatite crystals were more common in patients with more severe OA. New findings are that our sequential cases showed that there were some patients with no crystals at onset but that crystals appeared with progression of the disease. Fibril presence in SF also correlated with progression of the disease.

Comparative calcification of native articular cartilage matrix vesicles and nitroprusside-generated vesicles

OBJECTIVE

Articular cartilage matrix vesicles generate calcium pyrophosphate- and basic calcium phosphate-like mineral in vitro. We sought to determine the morphologic features and calcifying capacity of sodium nitroprusside (SNP)-induced vesicles for comparison to those of controls.

METHODS

Porcine articular cartilage was exposed to 1 mM SNP for 24 h and vesicles were isolated by enzymatic digestion and serial ultracentrifugation. Control vesicles were derived from an equal weight of untreated articular cartilage. Vesicles-containing fractions pelleted at 2 x 10(5) g x min (pellet I), 3 x 10(6) g x min (pellet II, the heavy vesicle fraction) and 8 x 10(6) g x min (pellet III, the light vesicle fraction) were analysed for Lowry protein content, nucleoside triphosphate pyrophosphohydrolase specific activity (NTPPPH) and ATP-dependent calcifying capacity.

RESULTS

Electron micrographs (EM) revealed two populations of vesicular structures in both SNP and control pellets. In most experiments, there were no significant differences between the protein contents or ATP-dependent calcium accumulation of SNP vesicles compared to control vesicles. SNP vesicles in pellets I and II had lower NTPPPH activities than their respective controls, P < or = 0.01.

CONCLUSIONS

Our data confirmed that 24-hour treatment with the apoptosis-inducing agent did not increase matrix vesicle protein or alter the calcifying activity of vesicles compared to those from control cartilage. SNP did generate vesicles with lower NTPPPH specific activity in most experiments. SNP vesicles, although morphologically similar to controls, are not biochemically identical to them.

A randomized controlled trial to evaluate the slow-acting symptom-modifying effects of colchicine in osteoarthritis of the knee: a preliminary report

OBJECTIVE

To determine if colchicine added to nimesulide may have a beneficial effect on osteoarthritis (OA) of the knee.

METHODS

Colchicine 0.5 mg twice daily or placebo was added to nimesulide (a nonsteroidal antiinflammatory drug) in 36 patients with OA of the knee in a randomized, double-blind, placebo-controlled trial over a 5-month period.

RESULTS

The 30% improvement rate at 20 weeks was higher in the colchicine group than in the control group receiving placebo, as measured by total Western Ontario and McMaster University Osteoarthritis scores (57.9% versus 23.5%) and visual analog scale for index knee pain (52.6% versus 17.6%) (primary measures of response). The significance persisted on combined analysis by Mantel-Haenszel test (P = 0.062). Comparison of means also showed significant improvement in the colchicine group versus the control group in a multivariate analysis performed using T(2) test (P = 0.0115).

CONCLUSION

Among patients with OA of the knee, the group receiving colchicine plus nimesulide exhibited significantly greater symptomatic benefit at 20 weeks than did the control group receiving nimesulide plus placebo.

Pathogenesis of cartilage calcification: mechanisms of crystal deposition in cartilage

Apatite crystals form in physiologically calcified tissues, including the hyaline cartilage of the epiphyseal growth plate. While apatite crystals appear as unwanted deposits in other cartilage sites, more frequently, crystalline materials other than or in addition to apatite develop in dystrophic cartilage deposits. These crystalline materials include calcium pyrophosphate dihydrate and other calcium phosphate and calcium carbonate phases, monosodium urate, calcium oxalate, cholesterol, and crystallized proteins. This review describes the physical chemistry of crystal deposition and the events that occur in the growth plate as a basis for understanding the pathogenesis of nonphysiologic crystal deposition in cartilage.

Articular cartilage calcification and matrix vesicles

There has been much research in calcium-containing crystal deposition diseases of hereditary and sporadic type. Synovial cell-induced inflammation and secondary cartilage damage are common in these diseases. In most cases of these diseases and in primary osteoarthritis, there are mineral deposits in the cartilage, mineral crystals in the synovial fluid, and aberrations of pyrophosphate metabolism.

Molecular mechanism of the induction of metalloproteinases 1 and 3 in human fibroblasts by basic calcium phosphate crystals. Role of calcium-dependent protein kinase C alpha

Synovial fluid basic calcium phosphate (BCP) crystals are common in osteoarthritis and are often associated with destructive arthropathies involving cartilage degeneration. These crystals are mitogenic and induce oncogene expression and matrix metalloproteinase (MMP) synthesis and secretion in human fibroblasts. To date, BCP crystal-elicited signal transduction pathways have not been completely studied. Because protein kinase C (PKC) is known to play an important role in signal transduction, we investigated the participation of this pathway in the BCP crystal induction of MMP-1 and MMP-3 mRNA and protein expressions in human fibroblasts. Using reverse transcription/polymerase chain reaction (RT-PCR) and Northern and Western blotting techniques, we show here that BCP crystal stimulation of MMP-1 and MMP-3 mRNA and protein expressions in human fibroblasts is dependent upon the calcium-dependent PKC signal transduction pathway and that the PKC alpha isozyme is specifically involved in the pathway. We have previously shown that BCP crystal induction of MMP-1 and MMP-3 is also dependent on the p44/42 mitogen-activated protein kinase (p44/42 MAPK) signal transduction pathway. We now show that these two pathways operate independently and seem to complement each other. This leads to our hypothesis that the two pathways initially function independently, ultimately leading to an increase in mitogenesis and MMP synthesis, and may converge downstream of PKC and p44/42 MAPK to mediate BCP crystal-induced cellular responses.

Induction of matrix metalloproteinase-8 in human fibroblasts by basic calcium phosphate and calcium pyrophosphate dihydrate crystals: effect of phosphocitrate

Although matrix metalloproteinase-8 (MMP-8) was regarded as the exclusive product of the neutrophils, recent studies have shown that it is also expressed in articular chondrocytes, rheumatoid synovial fibroblasts and endothelial cells. Our aim was to determine the expression of MMP-8 in human fibroblasts (HF) by reverse transcription/polymerase chain reaction (RT/PCR). Northern and Western blotting methods and MMP-8 activity assay. We have shown the expression of MMP-8 in HF and its dose-dependent upregulation by basic calcium phosphate (BCP) and calcium pyrophosphate dihydrate (CPPD) crystals which are markers of severe joint degeneration in osteoarthritis. These effects require new protein synthesis and are reversed by phosphocitrate (PC). The results also show that this fibroblast MMP-8 is distinct from the neutrophil MMP-8 and from the fibroblast MMP-1. These results indicate that MMP-8 may play a significant role in the pathogenic effects of the crystals in osteoarthritis.

Contribution of arthroscopy and magnetic resonance imaging to the evaluation of painful knee osteoarthritis

In knee osteoarthritis, arthroscopy provides valuable information that suggests an original approach to the disease. In combination with recent imaging study data, this information can be used to develop a novel concept of the evaluation of knee osteoarthritis. The main mechanisms responsible for flares of the disease seem to be synovitis, degenerative meniscal disease, and subchondral bone lesions. Treatments targeted at each of these mechanisms can be used as appropriate. Determination of the exact nature of the lesions can be difficult and relies at present on sophisticated investigations not readily available in everyday practice. Further work is needed to determine how a finer analysis of symptoms and signs in combination with simple investigations can differentiate between the various pathological patterns of knee osteoarthritis.

The ank gene story

The underlying molecular defect resulting in the abnormal calcification observed in ank/ank mice has been identified. The responsible nonsense mutation affects the protein product of ank, resulting in diminished production of extracellular inorganic pyrophosphate, an important inhibitor of nucleation and of the growth of apatite crystals. The ank gene product is one of several cell membrane proteins, including ectonucleoside triphosphate pyrophosphohydrolase enzymes and alkaline phosphatase, that regulate extracellular inorganic pyrophosphate levels and thereby regulate mineralization.

Phosphate ions mediate chondrocyte apoptosis through a plasma membrane transporter mechanism

In a previous investigation we showed that phosphate ions (Pi) induced apoptosis of terminally differentiated hypertrophic chondrocytes. To explore the mechanism by which Pi induces cell death, we asked the following two questions. First, can we prevent Pi-induced apoptosis by inhibiting plasma membrane Na-Pi cotransport? Second, which specific Na-Pi transporters are expressed in chondrocytes and are they developmentally regulated? Terminally differentiated hypertrophic chondrocytes were isolated from chick tibial cartilage and cell death was measured in the presence of 3-7 mmol/L Pi. To ascertain whether apoptosis was linked to a rise in cellular Pi loading, we examined the effect of phosphonoformic acid (PFA), a competitive inhibitor of Na-Pi cotransport on Pi-induced apoptosis in chondrocytes. We found that 1 mmol/L PFA blocked anion-induced cell death and prevented an increase in the cell Pi content. In a parallel study, we determined that the bisphosphonate, alendronate, also protected chondrocytes from death, albeit at a lower concentration than PFA. Using a DNA end-labeling procedure, we showed that the Pi-treated cells were apoptotic and, as might be predicted, the presence of PFA blocked induction of the death sequence. Next, we examined the expression of two Pi transporters in relation to chondrocyte maturation and anion treatment. We noted that there was expression of the constitutive transporter, Glvr-1, and a type II cotransporter in chick growth plate cells. Although these transport systems are active in terminally differentiated cells, it is probable that the initiation of apoptosis may require the induction of other Pi-transport systems. It is concluded that, at the mineralization front, cell death is linked directly to the elevation in environmental anion concentration and the concomitant rise in intracellular Pi levels.

Gout and other crystal-associated arthropathies

Intra-articular crystals (monosodium urate monohydrate, calcium pyrophosphate dihydrate, basic calcium phosphates) can cause acute and chronic inflammation and joint damage. Identification of the crystals by polarized microscopy is the key step in diagnosis but improved reliability of synovial examination is required. Treatment of disorders associated with gout or calcium pyrophosphate deposition may reduce non-joint morbidity and assist treatment of the arthritis. Various forms of anti-inflammatory therapy work for acute crystal-induced arthritis; prompt commencement is usually more important than which option is used. In gout, recurrent attacks are usual, but hypouricaemic therapy is almost never urgent, is life-long, and is too often negated by poor compliance. In most patients, allopurinol or any of the potent uricosuric drugs will allow maintenance of normouricaemia but renal failure, renal calculi, transplantation, and allopurinol allergy narrow the options and complicate management.

Crystal-associated arthritis in the elderly

The understanding of the clinical syndromes of gout and pseudogout, and the role of basic calcium crystals in arthritis has increased since the original descriptions of the involvement of crystals in arthritis. Gout is usually considered an affliction confined to middle aged males but has an increasing prevalence in older populations, with unique and often atypical features. Calcium pyrophosphate dihydrate crystal deposition disease is common in elderly patients. The diagnosis of these common forms of arthritis and the need to individualize therapy in patients with other medical problems remain important clinical challenges to the practicing physician.

Role of the mouse ank gene in control of tissue calcification and arthritis

Mutation at the mouse progressive ankylosis (ank) locus causes a generalized, progressive form of arthritis accompanied by mineral deposition, formation of bony outgrowths, and joint destruction. Here, we show that the ank locus encodes a multipass transmembrane protein (ANK) that is expressed in joints and other tissues and controls pyrophosphate levels in cultured cells. A highly conserved gene is present in humans and other vertebrates. These results identify ANK-mediated control of pyrophosphate levels as a possible mechanism regulating tissue calcification and susceptibility to arthritis in higher animals.

What is new about crystals other than monosodium urate?

Recently, attention has focused on the effects of weather conditions and seasonal changes on the incidence of acute microcrystalline events. Acute gout attacks are more frequent during the spring, but seasonal variations in the incidence of acute pseudogout attacks are less clearly defined. Genetic analysis of two unrelated families with calcium pyrophosphate dihydrate (CPPD) crystal deposition disease showed linkage to the short arm of chromosome 5p. Several recent reports show CPPD crystal disease occurring in association with Gitelman syndrome, the hypocalciuric-hypomagnesemic variant of Bartter syndrome. Two signaling pathways, protein kinase C and adenyl cyclase, modulate generation of extracellular pyrophosphate by porcine cartilage chrondrocytes. These transduction mechanisms may provide potential targets for the treatment of CPPD crystal deposition disease. A controlled clinical trial showed ultrasound therapy to be beneficial in the treatment of symptomatic chronic calcific tendinitis of the shoulder. There is evidence that apatite crystals may contribute to cartilage damage in osteoarthritis and that therapeutic interventions to prevent the formation and biologic effects of the crystals may potentially retard the progression of the osteoarthritic process.

Familial and clinical aspects of calcium pyrophosphate deposition disease

The mechanisms involved in calcium pyrophosphate dehydrated deposition disease (CPPDD) are unknown and those families with the disease, described in different countries, provide a fertile file for genomic research. Genomic DNA studies in these kindred with secondary or primary form of CPPDD provide a shortcut for trying to investigate the biomolecular basis of the disease. Mutations in the COL2A1 gene have been identified in one family with spondyloepiphyseal dysplasia and secondary deposits of pyrophosphate and apatite crystalline deposits. In another kindred with CPPDD due to precocious osteoarthritis, the phenotype was linked to markers of chromosome 8p. In four other kindreds (British, Argentinean, French, and the United States), the phenotypes were linked to a precise region of chromosome 5p. Two possible genes located in this region that are expressed in the articular cartilage, but of unknown articular physiologic role are being investigated as possible CPPDD genes. From the clinical point of view, CPPDD spectrum of clinical and radiographic manifestations is enlarging, especially those related to spine involvement or pseudo tumoral forms. At the end, the present review of a current therapeutic approach for CPPDD is discussed.