Toru Oizumi scite author profile

Nitrogen-containing bisphosphonates (NBPs) exhibit powerful anti-bone-resorptive effects (ABREs) via inhibition of farnesyl pyrophosphate synthase during cholesterol biosynthesis. Clinical applications have disclosed an unexpected side effect, namely osteonecrosis of jaw bones, and although thousands of cases have been documented in the last few years the mechanism remains unclear. Since NBPs accumulate in bone-hydroxyapatite, more jaw bone osteonecrosis cases may come to light if NBPs continue to be used as they are being used now. We have previously reported that in mice, systemic (intraperitoneal) injection of clodronate (a non-NBP) prevents the inflammatory effects of NBPs. Here, we examined in mice the local necrotic actions of various NBPs and the anti-necrotic effects of clodronate. A single subcutaneous injection of an NBP into the ear pinna induced necrosis at the injection site (relative potencies of necrotic actions of NBPs: zoledronate >> pamidronate ≥ alendronate > risedronate), while non-NBPs lacked this effect. Clodronate, when injected together with an NBP, reduced or prevented the necrosis induced by that NBP, but not its ABRE. Clodronate reduced the amount of each NBP retained within tissues. These results, together with those of previous studies, suggest that (i) clodronate inhibits the inflammatory and necrotic actions of NBPs by inhibiting their incorporation into cells related to inflammation and/or necrosis, (ii) clodronate could be useful as a combination drug with NBPs for preventing their necrotic actions while retaining their ABREs and (iii) clodronate could also be useful as a substitution drug for NBPs in patients at risk of osteonecrosis of jaw bones.

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Inhibition of Necrotic Actions of Nitrogen-Containing Bisphosphonates (NBPs) and Their Elimination From Bone by Etidronate (a Non-NBP): A Proposal for Possible Utilization of Etidronate as a Substitution Drug for NBPs

Oizumi

Funayama

Yamaguchi

et al. 2010

Journal of Oral and Maxillofacial Surgery

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Pro-IL-1β accumulation in macrophages by alendronate and its prevention by clodronate

et al. 2010

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Highly sensitive trace moisture ball surface acoustic wave sensor using SiO_xfilm

Hagihara

Tsuji

Oizumi

et al. 2014

Jpn. J. Appl. Phys.

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We present a new analysis of Rossi X-Ray Timing Explorer observations of the 2002 outburst of the transient X-ray nova 4U 1543-47. We focus on observations in the high/soft state, and attempt to measure the "spin" of the black hole by simultaneously fitting the thermal disk continuum and by modeling the broadened iron k-shell emission lines and additional blurred reflection features. Previous works have found that use of these methods individually returns contradictory values for the dimensionless spin parameter a * = cJ/GM 2 . We find that when used in conjunction with each other, a moderate spin is obtained (a * = 0.43 +0.22 −0.31 ) that is actually consistent with both other values within errors. We discuss limitations of our analysis, systematic uncertainties, and implications of this measurement, and compare our result to those previously claimed for 4U 1543-47.

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Inhibition of Phosphate Transporters Ameliorates the Inflammatory and Necrotic Side Effects of the Nitrogen-Containing Bisphosphonate Zoledronate in Mice

Okada

Kiyama

Sato

et al. 2013

Tohoku J. Exp. Med.

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Bisphosphonates (BPs) are pyrophosphate analogs. They are widely used against enhanced boneresorption in various diseases. Nitrogen-containing BPs (N-BPs) exhibit strong anti-bone-resorptive effects but have inflammatory and necrotic side effects. The non-nitrogen-containing BPs (non-N-BPs) etidronate and clodronate lack such side effects, but their anti-bone-resorptive effects are weak. In mice, etidronate and clodronate reduce the inflammatory/necrotic effects of N-BPs, even those of zoledronate, the N-BP with the strongest anti-bone-resorptive effect yet reported and the highest risk of inflammation/necrosis. Here, to explore the mechanisms underlying this protection, we used a mouse model in which a single reagent or a mixture of two reagents was injected subcutaneously into ear-pinnas. These reagents included zoledronate, four non-N-BPs, pyrophosphate, and inhibitors of various organic-anion-transporters. Pyrophosphate and two of the four non-N-BPs (not etidronate or clodronate) had inflammatory/necrotic effects. These effects were reduced by etidronate and clodronate, but not by phosphonoformate, an inhibitor of two of the three known phosphate-transporter families. Phosphonoformate reduced the inflammatory/necrotic effects of zoledronate, but not those of pyrophosphate or of non-N-BPs. Conversely, pyrophosphate, at non-inflammatory/necrotic concentrations, reduced the inflammatory/necrotic effects of non-N-BPs, but not those of zoledronate. The efficacies of the protective effects against the inflammatory/ necrotic effects of zoledronate were clodronate > etidronate > phosphonoformate. These findings suggest that (i) the N-BP zoledronate may enter soft-tissue cells via phosphonoformate-inhibitable phosphatetransporters, (ii) other phosphate-transporters may carry pyrophosphate and inflammatory/necrotic non-N-BPs into such cells, and (iii) etidronate and clodronate inhibit all these transporters, and they ameliorate the side effects of zoledronate by inhibiting phosphonoformate-inhibitable phosphatetransporters.

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Toru Oizumi

Necrotic Actions of Nitrogen‐Containing Bisphosphonates and Their Inhibition by Clodronate, a Non‐Nitrogen‐Containing Bisphosphonate in Mice: Potential for Utilization of Clodronate as a Combination Drug with a Nitrogen‐Containing Bisphosphonate

Inhibition of Necrotic Actions of Nitrogen-Containing Bisphosphonates (NBPs) and Their Elimination From Bone by Etidronate (a Non-NBP): A Proposal for Possible Utilization of Etidronate as a Substitution Drug for NBPs

Pro-IL-1β accumulation in macrophages by alendronate and its prevention by clodronate

Highly sensitive trace moisture ball surface acoustic wave sensor using SiO_xfilm

Inhibition of Phosphate Transporters Ameliorates the Inflammatory and Necrotic Side Effects of the Nitrogen-Containing Bisphosphonate Zoledronate in Mice

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Toru Oizumi

Necrotic Actions of Nitrogen‐Containing Bisphosphonates and Their Inhibition by Clodronate, a Non‐Nitrogen‐Containing Bisphosphonate in Mice: Potential for Utilization of Clodronate as a Combination Drug with a Nitrogen‐Containing Bisphosphonate

Inhibition of Necrotic Actions of Nitrogen-Containing Bisphosphonates (NBPs) and Their Elimination From Bone by Etidronate (a Non-NBP): A Proposal for Possible Utilization of Etidronate as a Substitution Drug for NBPs

Pro-IL-1β accumulation in macrophages by alendronate and its prevention by clodronate

Highly sensitive trace moisture ball surface acoustic wave sensor using SiOxfilm

Inhibition of Phosphate Transporters Ameliorates the Inflammatory and Necrotic Side Effects of the Nitrogen-Containing Bisphosphonate Zoledronate in Mice

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Product

Resources

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Highly sensitive trace moisture ball surface acoustic wave sensor using SiO_xfilm