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Query: UNIPROT:P05231 (
interleukin-6
)
23,907
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Protein kinase C (PKC) has been shown to be activated by
parathyroid hormone
(
PTH
) in osteoblasts. Prior evidence suggests that this activation mediates responses leading to bone resorption, including production of the osteoclastogenic cytokine
interleukin-6
(
IL-6
). However, the importance of specific PKC isozymes in this process has not been investigated. A selective antagonist of PKC-beta, LY379196, was used to determine the role of the PKC-beta isozyme in the expression of
IL-6
in UMR-106 rat osteoblastic cells and in bone resorption in fetal rat limb bone organ cultures.
PTH
, tumor necrosis factor-alpha (TNF-alpha), and interleukin-1 beta (IL-1 beta) induced translocation of PKC-alpha and -beta(I) to the plasma membrane in UMR-106 cells within 5 min. The stimulation of PKC-beta(I) translocation by
PTH
, TNF-alpha or IL-1 beta was inhibited by LY379196. In contrast, LY379196 did not affect
PTH
, TNF-alpha-, or IL-1 beta-stimulated translocation of PKC-alpha.
PTH
, TNF-alpha, and IL-1 beta increased luciferase expression in UMR-106 cells transiently transfected with a -224/+11 bp
IL-6
promoter-driven reporter construct. The
IL-6
responses were also attenuated by treatment with LY379196. Furthermore, LY379196 inhibited bone resorption elicited by
PTH
in fetal rat bone organ cultures. These results indicate that PKC-beta(I) is a component of the signaling pathway that mediates
PTH
-, TNF-alpha-, and IL-1 beta-stimulated
IL-6
expression and
PTH
-stimulated bone resorption.
...
PMID:Involvement of PKC-beta in PTH, TNF-alpha, and IL-1 beta effects on IL-6 promoter in osteoblastic cells and on PTH-stimulated bone resorption. 1147 44
Osteoporosis is a disease affecting mainly women but also an increasing number of men. The destruction of the bone microarchitecture and the reduction of bone mass lead to increased fragility and pathologic bone fractures. Family studies and twin studies have shown that peak bone mass, mechanical strength, and physiological bone turnover are subject to genetic control. Vitamin D receptor polymorphisms were one of the first genetic factors suggested to influence bone phenotype, although their impact on bone metabolism was initially overestimated. Meanwhile, polymorphisms in numerous other genes such as collagen I alpha 1, estrogen receptor, transforming growth factor beta (TGF-beta), interleukin-1,
interleukin-6
, calcitonin,
parathyroid hormone
, and apolipoprotein E have been found to be associated with bone mineral density. In the interpretation of genetic findings, genetic differences between different ethnic groups, environmental factors such as calcium intake, vitamin D status, hormonal status, body size, and total body bone mineral density have to be considered. Understanding the molecular physiology of the genes described in this article and all genes influencing bone metabolism identified in the future will enable us to identify persons at risk for osteoporosis and to develop more specific therapies.
...
PMID:[Genetics of osteoporosis]. 1151 78
Anabolic hormones, mechanical loading, and the obese protein leptin play separate roles in maintaining bone mass. We have previously shown that leptin, as well as its receptor, are expressed by normal human osteoblasts. Consequently, we have investigated how leptin affects proliferation, differentiation, and apoptosis of human osteoblasts. Iliac crest osteoblasts, incubated with either leptin (100 ng/ml), calcitriol (1,25(OH)(2)D(3); 10(-9) M) or 1-84 human
parathyroid hormone
(PTH; 10(-8) M), were cultured for 35 consecutive days and assayed for expression of various differentiation-related marker genes (as estimated by RT-PCR), de novo collagen synthesis, proliferation, in vitro mineralization, and osteoclast signaling. The effects of leptin on protection against retinoic acid (RA; 10(-7) M) induced apoptosis, as well as transition into preosteocytes, were also tested. Leptin exposure enhanced cell proliferation and collagen synthesis over both control condition and PTH exposure. Leptin inhibited in vitro calcified nodule production after 1-2 weeks in culture, however, subsequent to 4-5 weeks, leptin significantly stimulated mineralization. The mineralization profile throughout the entire incubation period was almost undistinguishable from the one induced by PTH. In comparison, 1,25(OH)(2)D(3) generally reduced proliferation and collagen production rates, whereas mineralization was markedly enhanced. Leptin exposure (at 2 and 5 weeks) significantly enhanced the expression of TGFbeta, IGF-I, collagen-Ialpha, ALP, and osteocalcin mRNA. Leptin also protected against RA-induced apoptosis, as estimated by soluble DNA fractions and DNA laddering patterns subsequent to 10 days of culture. The expression profiles of Bax-alpha and Bcl-2 mRNAs indicated that leptin per se significantly protected against apoptosis throughout the entire incubation period. Furthermore, the osteoblast marker OSF-2 was diminished, whereas the CD44 osteocyte marker gene expression was stimulated, indicating a transition into preosteocytes. In terms of osteoclastic signaling, leptin significantly augmented the mRNA levels of both
interleukin-6
(
IL-6
) and osteoprotegerin (OPG). In summary, continuous leptin exposure of iliac crest osteoblasts, promotes collagen synthesis, cell differentiation and in vitro mineralization, as well as cell survival and transition into preosteocytes. Leptin may also facilitate osteoblastic signaling to the osteoclast.
...
PMID:Leptin stimulates human osteoblastic cell proliferation, de novo collagen synthesis, and mineralization: Impact on differentiation markers, apoptosis, and osteoclastic signaling. 1196 22
A 77-year-old man was admitted to our hospital showing symptoms of general fatigue and appetite loss. He had leukocytosis, thrombocytosis and hypercalcemia with elevated serum levels of
parathyroid hormone
related peptide (PTHrP) and
interleukin-6
(
IL-6
). An increase in tumor markers SCC and CYFURA21-1 was observed. The liver contained a huge tumor, which was proved to be PTHrP producing squamous cell carcinoma by immuno-histochemical analysis. Since the tumor did not express
IL-6
, it was assumed to be induced by PTHrP in osteoblasts. This is the first report of PTHrP producing squamous cell carcinoma of the liver.
...
PMID:PTHrP-producing tumor: squamous cell carcinoma of the liver accompanied by humoral hypercalcemia of malignancy, increased IL-6 and leukocytosis. 1205 86
To test the hypothesis that
parathyroid hormone
(
PTH
) regulates
interleukin-6
(
IL-6
) expression locally in bone, the expression of
IL-6
mRNA was examined by in situ hybridization after a subcutaneous injection of human
PTH
[1-84] (225 microg/kg) in 4-week old rats. Whereas
IL-6
mRNA was not detected at the basal status, it was transiently detected in a subpopulation of stromal cells in the intertrabecular region of the metaphyses from 1/2 to 1 hr after
PTH
injection. Contrastingly,
IL-6
transcripts were not detected in other cell populations at any time points examined. Since
IL-6
is a known activator of osteoclasts, these results are consistent with the hypothesis that
PTH
stimulates the local
IL-6
synthesis in stromal cells to indirectly activate osteoclasts.
...
PMID:Parathyroid hormone induces interleukin-6 gene expression in bone stromal cells of young rats. 1218 23
We have observed a strong correlation between circulating levels of both
interleukin-6
(
IL-6
) and
interleukin-6
soluble receptor (IL-6sR) and rates of bone turnover in patients with primary hyperparathyroidism. Furthermore, we have found that serum levels of IL-6sR predict rates of bone loss in postmenopausal women with this disease. Estrogen modulates
parathyroid hormone
(
PTH
)-induced increases in serum
IL-6
/IL-6sR, such that, in the estrogen-deficient state, there is an exaggerated release of these cytokines. We therefore propose that the perimenopausal period represents a time when skeletal sensitivity to the resorbing actions of
PTH
increases because of augmented release of
IL-6
and IL-6sR. To test this hypothesis, we retrospectively examined data from 91 women with primary hyperparathyroidism who were seen over the last 5 years at our institution. Women were categorized, based on their age, as premenopausal (n = 20, 41 +/- 2 years), perimenopausal (n = 17, 54 +/- 1 years), or postmenopausal (n = 54, 64 +/- 1 years). Despite having similar mean values for
PTH
, perimenopausal women had a mean serum
IL-6
value that was significantly higher than that in the premenopausal group (13 +/- 2 vs. 8 +/- 2 pg/ml; p = 0.03). This difference in cytokine profile was mirrored by higher mean values for urine N telopeptides of type I collagen (NTX) in the perimenopausal group compared with premenopausal women (114 +/- 9 vs. 80 +/- 11 nM bone collagen equivalents (BCE)/mM creatinine, p = 0.01). Of the three groups of patients, values for
IL-6
and urine NTX were highest in the postmenopausal group. We conclude that the perimenopausal period may be a time of increased risk for the skeletal complications of hyperparathyroidism. This is because of increased skeletal sensitivity to the resorbing actions of
PTH
, mediated in part, by the
IL-6
/IL-6sR cytokine system.
...
PMID:Role of the interleukin-6/interleukin-6 soluble receptor cytokine system in mediating increased skeletal sensitivity to parathyroid hormone in perimenopausal women. 1241 87
Osteopenia and osteoporosis have recently been described as complications of antiretroviral therapy in HIV-infected patients. The advent of highly active antiretroviral therapy in conjunction with improved standard antiviral and antibiotic regimens has dramatically changed the clinical course of HIV infection, resulting in prolonged survival. The pathogenesis and role of each individual medication are poorly understood. Avascular necrosis has also been described in AIDS patients receiving or not receiving antiretroviral therapy. This article is a clinically focused review of the literature on osteopenia, osteoporosis, and mineral metabolism related to HIV infection. In patients with HIV infection, the risks of osteopenia and osteoporosis are not very clear. The suggested risk factors for the development of osteopenia are use of protease inhibitors, longer duration of HIV infection, high viral load, high lactate levels, low bicarbonate levels, raised alkaline phosphatase level, and lower body weight before antiretroviral therapy. There have also been a few case reports of pathologic fractures in AIDS patients with antiretroviral therapy-induced osteopenia and osteoporosis. The underlying mechanism triggering bone loss in HIV-infected patients is unknown. The proinflammatory cytokines tumor necrosis factor and
interleukin-6
have been found to be constitutionally produced in increased amounts in HIV-positive individuals, and they may have a role in osteoclast activation and resorption. Serum markers of bone formation are decreased and resorption is increased in patients with advanced clinical disease. Hypocalcemia, hypercalcemia, and abnormalities of the
parathyroid hormone
axis have been described in HIV infection. Histomorphometric analyses have shown altered bone remodeling in HIV-infected patients when compared with controls. Patients with known risk factors for osteoporosis-advancing age, low body weight, and prolonged duration of HIV infection-and those receiving protease inhibitor treatment should be considered for dual x-ray absorptiometry imaging. If bone mineral density is osteopenic or osteoporotic, then the patient should also be screened for other known medical causes of osteoporosis and consider treatment with a bisphosphonate or, if hypogonadal, testosterone replacement under close monitoring.
...
PMID:HIV infection--a risk factor for osteoporosis. 1284 38
The effects of cystatin C and other cysteine proteinase inhibitors on osteoclast formation and differentiation have been investigated. Cystatin C decreased osteoclast formation stimulated by
parathyroid hormone
(
PTH
), 1,25(OH)2-vitamin D3 or
interleukin-6
(
IL-6
) (in the presence of its soluble receptor) as assessed by the number of tartrate-resistant acid phosphatase (TRAP+) multinucleated cells in mouse bone marrow cultures. The inhibitory effect was associated with decreased mRNA expression for the calcitonin receptor as well as decreased number of specific binding sites for 125I-calcitonin, and without any effect on the mRNA expression of receptor activator of nuclear factor kappaB (NF-kappaB) ligand (RANKL). Similarly, the cysteine proteinase inhibitors leupeptin, E-64 and benzyloxycarbonyl-Phe-Ala-diazomethane (Z-FA-CHN2) decreased
PTH
-stimulated formation of TRAP+ multinucleated cells and binding of 125I-calcitonin. A peptidyl derivative synthesized to mimic part of the proteinase-binding site of cystatin C (benzyloxycarbonyl-Arg-Leu-Val-Gly-diazomethane, or Z-RLVG-CHN2) also decreased
PTH
-stimulated osteoclast formation. In a 9-day culture, addition of cystatin C during the last 5 days was sufficient to cause substantial inhibition of osteoclast formation. Cystatin C-induced decrease of osteoclast formation was associated with enhanced number of F4/80-positive macrophages and increased mRNA expression of the macrophage receptor c-fms in the bone marrow culture. Osteoclast formation in mouse bone marrow cultures as well as in mouse spleen cell cultures, stimulated by macrophage colony-stimulating factor (M-CSF) and RANKL was also decreased by different cysteine proteinase inhibitors. In addition, cystatin C inhibited M-CSF/RANKL induction of calcitonin receptor mRNA in spleen cell cultures. The inhibitory effect by cystatin C in spleen cells was associated with decreased mRNA expression of RANK and the transcription factor NFAT2. It is concluded that cysteine proteinase inhibitors decrease formation of osteoclasts by interfering at a late stage of pre-osteoclast differentiation.
...
PMID:Osteoclastogenesis is decreased by cysteine proteinase inhibitors. 1500 89
The ability of
parathyroid hormone
(
PTH
) to enhance bone formation has recently been exploited in the treatment of osteoporosis. However, the underlying mechanisms are unknown. Osteoblasts, the bone-forming cells, derive from multipotential bone marrow stromal precursors called colony-forming units-fibroblastic (CFU-F) upon culture ex vivo. Adhesion of such stromal precursors to bone is likely to be an early event in the anabolic response of bone to
PTH
. To test this, we measured the number of CFU-F that could be extracted from murine bone marrow after administration of an anabolic dose of
PTH
. We found that a very early response is a dramatic reduction, starting within 2 h, in the number of CFU-F that could be extracted from their bone marrow. We then tested whether
PTH
has the ability to activate adhesion of CFU-F in vitro. For this, bone marrow cells were incubated in
PTH
for varying times. Non-adherent cells were then removed, and the adherent cells were incubated in
PTH
-free medium for 14 days to assess, as colony formation, the number of CFU-F that had adhered in the preceding period. We found that incubation in
PTH
caused a substantial increase in the number of CFU-F that adhered within 24 h. This increase was abrogated by peptidic inhibitors of integrins. The increase did not seem to be mediated through a
PTH
-induced increase in
interleukin-6
, since
interleukin-6
had no effect on CFU-F numbers when substituted for
PTH
. Similarly, adhesion was unaffected by incubation of bone marrow cells in dibutyryl cyclic AMP, nor by inhibitors or donors of nitric oxide. However, activation of CFU-F in vitro by
PTH
was strongly inhibited by indomethacin and mimicked by prostaglandin E(2), and indomethacin reversed the
PTH
-mediated reduction of CFU-F that could be extracted from mouse bone marrow. These results suggested that
PTH
rapidly activates adhesion of CFU-F to plastic or bone surfaces. This activation may represent an early event in the anabolic response of bone cells to
PTH
.
...
PMID:Parathyroid hormone activates adhesion in bone marrow stromal precursor cells. 1501 5
Primary hypercalciuria (PH) is very often accompanied by some degree of bone demineralization. The most frequent clinical condition in which this association has been observed is calcium nephrolithiasis. In patients affected by this disorder, bone density is very frequently low, and increased susceptibility to fragility fractures is reported. The very poor definition of this bone disease from a histomorphometric point of view is a crucial aspect. At present, the most common finding seems to be a low bone turnover condition. Many factors are involved in the complex relationships between bone loss and PH. Since bone loss was mainly reported in patients with fasting hypercalciuria, a primary alteration in bone metabolism was proposed as a cause of both hypercalciuria and bone demineralization. This hypothesis was strengthened by the observation that some bone resorbing-cytokines, such as interleukin-1 (IL-1),
interleukin-6
(
IL-6
), and tumor nechrosis factor-alpha (TNF-alpha), are high in hypercalciuric patients. An excessive response to the acid load induced by dietary protein intake seems to be an additional factor explaining a primitive alteration of bone. The intestine plays a major role in the clinical course of bone disease in PH. Patients with absorptive hypercalciuria less frequently show bone disease, and a reduction in dietary calcium greatly increases the probability of bone loss in PH subjects. It has recently been reported that greater bone loss is associated with a larger increase in intestinal calcium absorption in PH patients. Considering the absence of
parathyroid hormone
(
PTH
) alterations, it was proposed that this is not a compensatory phenomenon, but probably the marker of disturbed cell calcium transport, involving both intestinal and bone tissues. While renal hypercalciuria is rather uncommon, the kidney still seems to play a role in the pathogenesis of bone loss in PH patients, possibly via the effect of mild-to-moderate urinary phosphate loss with secondary hypophosphatemia. In conclusion, bone loss is very common in PH patients. Even if most of the factors involved in this process have been identified, many aspects of this intriguing clinical condition remain to be elucidated.
...
PMID:Bone disease in primary hypercalciuria. 1604 39
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