Intracellular cholesterol biosynthesis in enchondroma and chondrosarcoma
Hongyuan Zhang, Qingxia Wei, Hidetoshi Tsushima, Vijitha Puviindran, Yuning J. Tang, Sinthu Pathmanapan, Raymond Poon, Eyal Ramu, Mushriq Al-Jazrawe, Jay Wunder, Benjamin A. Alman
Hongyuan Zhang, Qingxia Wei, Hidetoshi Tsushima, Vijitha Puviindran, Yuning J. Tang, Sinthu Pathmanapan, Raymond Poon, Eyal Ramu, Mushriq Al-Jazrawe, Jay Wunder, Benjamin A. Alman
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Research Article Bone biology Oncology

Intracellular cholesterol biosynthesis in enchondroma and chondrosarcoma

Abstract

Enchondroma and chondrosarcoma are the most common benign and malignant cartilaginous neoplasms. Mutations in isocitrate dehydrogenase 1 and 2 (IDH1/2) are present in the majority of these tumors. We performed RNA-seq analysis on chondrocytes from Col2a1Cre;Idh1LSL/+ animals and found that genes implied in the cholesterol synthesis pathway were significantly upregulated in the mutant chondrocytes. We examined the phenotypic effect of inhibiting intracellular cholesterol biosynthesis on enchondroma formation by conditionally deleting sterol regulatory element–binding protein cleavage-activating protein (SCAP), a protein activating intracellular cholesterol synthesis, in IDH1 mutant mice. We found fewer enchondromas in animals lacking SCAP. Furthermore, in chondrosarcomas, pharmacological inhibition of intracellular cholesterol synthesis substantially reduced chondrosarcoma cell viability in vitro and suppressed tumor growth in vivo. Taken together, these data suggest that intracellular cholesterol synthesis is a potential therapeutic target for enchondromas and chondrosarcomas.

Authors

Hongyuan Zhang, Qingxia Wei, Hidetoshi Tsushima, Vijitha Puviindran, Yuning J. Tang, Sinthu Pathmanapan, Raymond Poon, Eyal Ramu, Mushriq Al-Jazrawe, Jay Wunder, Benjamin A. Alman

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Figure 1

Cholesterol synthesis was upregulated in IDH1R132Q chondrocytes.

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Cholesterol synthesis was upregulated in IDH1R132Q chondrocytes. (A) Hea...
(A) Heatmap of RNA-seq on sternal chondrocytes from Col2a1Cre;Idh1LSL/+ (n = 3), Idh1LSL/+ (n = 2), and Col2a1Cre (n = 3) mice at E18.5. Littermates were used for the analysis. (B) Gene set enrichment analysis for the cholesterol biosynthesis pathway. (C) Relative fold change of gene expression in the cholesterol synthesis pathway (n = 3). ***P < 0.001. The false discovery rate was calculated to control for multiple hypothesis testing. (D) qPCR of Hmgcr of sternal chondrocytes isolated from Col2a1Cre and Col2a1Cre;Idh1LSL/+ animals at E18.5 (n = 3). **P < 0.01, unpaired, 2-tailed Student’s t test. Mean ± 95% confidence intervals are shown.