PHEx 模拟物（SPR4 肽）纠正并改善 HYP 和野生型小鼠的能量代谢。

PHEX mimetic (SPR4-peptide) corrects and improves HYP and wild type mice energy-metabolism.

机构信息

Internal Medicine, The Kidney Institute, Kansas University Medical Center (KUMC), Kansas City, Kansas, United States of America.

出版信息

PLoS One. 2014 May 19;9(5):e97326. doi: 10.1371/journal.pone.0097326. eCollection 2014.

DOI:10.1371/journal.pone.0097326

PMID:24839967

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4026222/

Abstract

CONTEXT

PHEX or DMP1 mutations cause hypophosphatemic-rickets and altered energy metabolism. PHEX binds to DMP1-ASARM-motif to form a complex with α5β3 integrin that suppresses FGF23 expression. ASARM-peptides increase FGF23 by disrupting the PHEX-DMP1-Integrin complex. We used a 4.2 kDa peptide (SPR4) that binds to ASARM-peptide/motif to study the DMP1-PHEX interaction and to assess SPR4 for the treatment of energy metabolism defects in HYP and potentially other bone-mineral disorders.

DESIGN

Subcutaneously transplanted osmotic pumps were used to infuse SPR4-peptide or vehicle (VE) into wild-type mice (WT) and HYP-mice (PHEX mutation) for 4 weeks.

RESULTS

SPR4 partially corrected HYP mice hypophosphatemia and increased serum 1.25(OH)2D3. Serum FGF23 remained high and PTH was unaffected. WT-SPR4 mice developed hypophosphatemia and hypercalcemia with increased PTH, FGF23 and 1.25(OH)2D3. SPR4 increased GAPDH HYP-bone expression 60× and corrected HYP-mice hyperglycemia and hypoinsulinemia. HYP-VE serum uric-acid (UA) levels were reduced and SPR4 infusion suppressed UA levels in WT-mice but not HYP-mice. SPR4 altered leptin, adiponectin, and sympathetic-tone and increased the fat mass/weight ratio for HYP and WT mice. Expression of perlipin-2 a gene involved in obesity was reduced in HYP-VE and WT-SPR4 mice but increased in HYP-SPR4 mice. Also, increased expression of two genes that inhibit insulin-signaling, ENPP1 and ESP, occurred with HYP-VE mice. In contrast, SPR4 reduced expression of both ENPP1 and ESP in WT mice and suppressed ENPP1 in HYP mice. Increased expression of FAM20C and sclerostin occurred with HYP-VE mice. SPR4 suppressed expression of FAM20C and sclerostin in HYP and WT mice.

CONCLUSIONS

ASARM peptides and motifs are physiological substrates for PHEX and modulate osteocyte PHEX-DMP1-α5β3-integrin interactions and thereby FGF23 expression. These interactions also provide a nexus that regulates bone and energy metabolism. SPR4 suppression of sclerostin and/or sequestration of ASARM-peptides improves energy metabolism and may have utility for treating familial rickets, osteoporosis, obesity and diabetes.

摘要

背景

PHEX 或 DMP1 突变导致低磷血症性佝偻病和能量代谢改变。PHEX 与 DMP1-ASARM 基序结合形成与 α5β3 整联蛋白的复合物，从而抑制 FGF23 的表达。ASARM 肽通过破坏 PHEX-DMP1-整联蛋白复合物来增加 FGF23。我们使用 4.2kDa 肽（SPR4）与 ASARM-肽/基序结合来研究 DMP1-PHEX 相互作用，并评估 SPR4 治疗 HYP 及潜在其他骨矿物质疾病的能量代谢缺陷。

设计

通过皮下移植渗透泵将 SPR4 肽或载体（VE）输注到野生型（WT）和 HYP 小鼠（PHEX 突变）中 4 周。

结果

SPR4 部分纠正了 HYP 小鼠的低磷血症并增加了血清 1.25（OH）2D3。血清 FGF23 仍然很高，PTH 不受影响。WT-SPR4 小鼠出现低磷血症和高钙血症，伴有 PTH、FGF23 和 1.25（OH）2D3 增加。SPR4 使 HYP 骨中的 GAPDH 表达增加了 60 倍，并纠正了 HYP 小鼠的高血糖和胰岛素血症。HYP-VE 血清尿酸（UA）水平降低，SPR4 输注抑制了 WT 小鼠但不抑制 HYP 小鼠的 UA 水平。SPR4 改变了 HYP 和 WT 小鼠的瘦素、脂联素和交感神经张力，并增加了脂肪质量/体重比。肥胖相关基因 perlipin-2a 的表达在 HYP-VE 和 WT-SPR4 小鼠中降低，但在 HYP-SPR4 小鼠中增加。此外，HYP-VE 小鼠中还出现了两种抑制胰岛素信号的基因 ENPP1 和 ESP 的表达增加。相反，SPR4 降低了 WT 小鼠中 ENPP1 和 ESP 的表达，并抑制了 HYP 小鼠中的 ENPP1。FAM20C 和 Sclerostin 的表达增加与 HYP-VE 小鼠有关。SPR4 抑制了 HYP 和 WT 小鼠中 FAM20C 和 Sclerostin 的表达。

结论

ASARM 肽和基序是 PHEX 的生理底物，调节成骨细胞 PHEX-DMP1-α5β3 整联蛋白相互作用，从而调节 FGF23 的表达。这些相互作用还提供了一个调节骨骼和能量代谢的枢纽。SPR4 抑制 Sclerostin 和/或螯合 ASARM 肽可改善能量代谢，可能对治疗家族性佝偻病、骨质疏松症、肥胖症和糖尿病有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/36d6/4026222/67b0d0863ea5/pone.0097326.g001.jpg

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PHEx 模拟物（SPR4 肽）纠正并改善 HYP 和野生型小鼠的能量代谢。

PHEX mimetic (SPR4-peptide) corrects and improves HYP and wild type mice energy-metabolism.

机构信息

出版信息

CONTEXT

DESIGN

RESULTS

CONCLUSIONS

背景

设计

结果

结论

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