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  • Title: Effects of prostaglandins on deoxyribonucleic acid and aggrecan synthesis in the RCJ 3.1C5.18 chondrocyte cell line: role of second messengers.
    Author: Lowe GN, Fu YH, McDougall S, Polendo R, Williams A, Benya PD, Hahn TJ.
    Journal: Endocrinology; 1996 Jun; 137(6):2208-16. PubMed ID: 8641167.
    Abstract:
    PGs play an important role in regulating articular chondrocyte function in both normal and pathological states. However, the mechanisms of the effects of PG on chondrocyte function remain undefined. We, therefore, examined the effects of PGE1, PGE2, and PGE2 alpha on second messenger generation in relation to DNA and aggrecan synthesis in the nontransformed rat RCJ 3.1C5.18 (RCJ) chondrocyte cell line. RCJ cells were grown under minimal attachment conditions on a composite collagen-agarose (0.15%/0.8%) gel to maintain a differentiated phenotype. PGE1 and PGE2 (0.001-100 microM) produced a similar dose-related increase in cAMP accumulation, with a maximal 8-fold increase over basal values, whereas PGF2 alpha produced a minimal 1.3-fold increase in cAMP levels only at 100 microM. On the other hand, both PGE2 and PGE2 alpha raised the intracellular free calcium ([Ca2+]i) concentration, derived primarily from extracellular sources, whereas PGE1 was without effect on [Ca2+]i. These three PGs also had divergent effects on DNA synthesis, as measured by [3H]thymidine ([3H]TdR) incorporation. PGF2 alpha (0.001-5 microM) produced a dose-related increase in [3H]TdR incorporation, with a maximal 1.6-fold increase over baseline values at 5 microM and a slight decline to below maximal levels at 10 microM. PGE2 exhibited a contrasting inverse biphasic response, with an initial small suppressive effect that was maximal at 0.1 microM and a secondary stimulatory phase producing a small increase over control values at 5 microM. PGE1 had a uniformly suppressive effect, producing a 30% decrease at 10 microM. Despite the divergent effects of PGE1, PGE2, and PGE2 alpha on second messenger generation and DNA synthesis, all three PGs produced a dose-related stimulation of aggrecan synthesis. PGF2 alpha was the most potent, producing significant stimulation at 0.001 microM and a maximal 104% increase at 5 microM. PGE1 and PGE2 were approximately equipotent and approximately 60% as effective as PGF2 alpha in stimulating aggrecan synthesis. Northern analysis demonstrated that the effects of PG on aggrecan synthesis were not accompanied by changes in aggrecan core protein steady state messenger RNA levels. Thus, the effects of PG on aggrecan production in RCJ cells appear to be regulated at the posttranscriptional level. Forskolin and (Bu)2cAMP mimicked the suppressive effects of PGE1 on [3H]TdR incorporation, as well as the stimulatory effect of PGE1 on aggrecan synthesis. In addition, the phorbol ester 12-O-tetradecanoyl phorbol acetate mimicked PGF2 alpha stimulation of [3H]TdR incorporation and aggrecan synthesis, and the effects of PGE2 alpha on these processes were blocked by protein kinase C inhibitors. Therefore, it appears that in mammalian chondrocytes, PGE1 primarily activates the cAMP-protein kinase A second messenger system, PGE2 alpha affects primarily the Ca2(+)-protein kinase C system, and PGE2 activates both pathways. Moreover, PG posttranscriptional regulation of aggrecan synthesis in chondrocytes involves both the cAMP-protein kinase A and Ca2(+)-protein kinase C second messenger systems.
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