PDK2 Deficiency Prevents Ovariectomy-Induced Bone Loss in Mice by Regulating the RANKL-NFATc1 Pathway During Osteoclastogenesis

Ji Min Lee, Min Ji Kim, Sun Joo Lee, Byung Gyu Kim, Je Yong Choi, Seung Mi Lee, Hye Jin Ham, Jung Min Koh, Jae Han Jeon, In Kyu Lee

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

Estrogen deficiency leads to osteoporosis as a result of an imbalance in bone remodeling due to greater bone resorption. Estrogen deficiency increases the osteoclastic resorption of bone, and many of the FDA-approved therapies for osteoporosis are antiresorptive drugs that mainly act by reducing osteoclast activity. The mitochondrial enzyme pyruvate dehydrogenase kinase (PDK) is a critical regulator of aerobic glycolysis that exerts its effects by phosphorylating the pyruvate dehydrogenase complex (PDC), which is responsible for oxidative phosphorylation. In the present study, we found that during osteoclast differentiation, PDK2 expression increased more than that of the other PDK isoenzymes. Bone loss was delayed and the number of osteoclasts was lower in ovariectomized (OVX) Pdk2−/− mice than in OVX wild-type mice. The differentiation of osteoclasts was suppressed in Pdk2−/− bone marrow–derived monocyte/macrophage lineage cells, which was associated with lower phosphorylation of cAMP response element-binding protein (CREB) and c-FOS, and a consequent reduction in NFATc1 transcription. Administration of AZD7545, a specific inhibitor of PDK2, prevented the OVX-induced bone loss and reduced the phosphorylation of CREB and c-FOS, and the protein expression of NFATc1, in osteoclasts. Collectively, these results indicate that the inhibition of PDK2 prevents osteoporosis in estrogen-deficient mice by reducing aberrant osteoclast activation, probably via inhibition of the RANKL-CREB-cFOS-NFATc1 pathway. These findings imply that PDK2 inhibitors might be repurposed for the therapy of estrogen deficiency-induced osteoporosis.

Original languageEnglish
Pages (from-to)553-566
Number of pages14
JournalJournal of Bone and Mineral Research
Volume36
Issue number3
DOIs
StatePublished - Mar 2021

Keywords

  • CELL SIGNALING
  • GENETIC ANIMAL MODEL
  • OSTEOCLAST
  • OSTEOPOROSIS
  • TRANSCRIPTION FACTOR

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