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Ret finger protein mediates Pax7-induced ubiquitination of MyoD in skeletal muscle atrophy.

Cellular signalling (2014-07-16)
Hosouk Joung, Gwang Hyeon Eom, Nakwon Choe, Hye Mi Lee, Jeong-Hyeon Ko, Duk-Hwa Kwon, Yoon Seok Nam, Hyunki Min, Sera Shin, Jeewon Kook, Young Kuk Cho, Jeong Chul Kim, Sang Beom Seo, Yung Hong Baik, Kwang-Il Nam, Hyun Kook
RESUMEN

Skeletal muscle atrophy results from the net loss of muscular proteins and organelles and is caused by pathologic conditions such as nerve injury, immobilization, cancer, and other metabolic diseases. Recently, ubiquitination-mediated degradation of skeletal-muscle-specific transcription factors was shown to be involved in muscle atrophy, although the mechanisms have yet to be defined. Here we report that ret finger protein (RFP), also known as TRIM27, works as an E3 ligase in Pax7-induced degradation of MyoD. Muscle injury induced by sciatic nerve transection up-regulated RFP and RFP physically interacted with both Pax7 and MyoD. RFP and Pax7 synergistically reduced the protein amounts of MyoD but not the mRNA. RFP-induced reduction of MyoD protein was blocked by proteasome inhibitors. The Pax7-induced reduction MyoD was attenuated by RFP siRNA and by MG132, a proteasome inhibitor. RFPΔR, an RFP construct that lacks the RING domain, failed to reduce MyoD amounts. RFP ubiquitinated MyoD, but RFPΔR failed to do so. Forced expression of RFP, but not RFPΔR, enhanced Pax7-induced ubiquitination of MyoD, whereas RFP siRNA blocked the ubiquitination. Sciatic nerve injury-induced muscle atrophy as well the reduction in MyoD was attenuated in RFP knockout mice. Taken together, our results show that RFP works as a novel E3 ligase in the Pax7-mediated degradation of MyoD in response to skeletal muscle atrophy.

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Anticuerpo anti-HA, monoclonal de ratón antibody produced in mouse, clone HA-7, purified from hybridoma cell culture
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Anti-gapdh antibody produced in rabbit, affinity isolated antibody, buffered aqueous solution
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MISSION® esiRNA, targeting human PAX7