Phosphoglycerate Dehydrogenase Promotes Proliferation and Bortezomib Resistance Through Increasing Reduced Glutathione Synthesis in Multiple Myeloma

Overview

Journal Br J Haematol

Specialty Hematology

Date 2020 Feb 11

PMID 32037523

Citations 36

Authors

Xuan Wu

Jiliang Xia

Jingyu Zhang

Yinghong Zhu

Yangbowen Wu

Jiaojiao Guo

Shilian Chen

Qian Lei

Bin Meng

Chunmei Kuang

Xiangling Feng

Yanjuan He

Yi Shen

Xin Li

Lugui Qiu

Guancheng Li

Wen Zhou

Affiliations

Soon will be listed here.

Abstract

The serine synthesis pathway (SSP) is active in multiple cancers. Previous study has shown that bortezomib (BTZ) resistance is associated with an increase in the SSP in multiple myeloma (MM) cells; however, the underlying mechanisms of SSP-induced BTZ resistance remain unclear. In this study, we found that phosphoglycerate dehydrogenase (PHGDH), the first rate-limiting enzyme in the SSP, was significantly elevated in CD138 cells derived from patients with relapsed MM. Moreover, high PHGDH conferred inferior survival in MM. We also found that overexpression of PHDGH in MM cells led to increased cell growth, tumour formation, and resistance to BTZ in vitro and in vivo, while inhibition of PHGDH by short hairpin RNA or NCT-503, a specific inhibitor of PHGDH, inhibited cell growth and BTZ resistance in MM cells. Subsequent mechanistic studies demonstrated PHGDH decreased reactive oxygen species (ROS) through increasing reduced glutathione (GSH) synthesis, thereby promoting cell growth and BTZ resistance in MM cells. Furthermore, adding GSH to PHGDH silenced MM cells reversed S phase arrest and BTZ-induced cell death. These findings support a mechanism in which PHGDH promotes proliferation and BTZ resistance through increasing GSH synthesis in MM cells. Therefore, targeting PHGDH is a promising strategy for MM therapy.

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