Ubiquitin Ligase Smurf1 Controls Osteoblast Activity and Bone Homeostasis by Targeting MEKK2 for Degradation

Yamashita, Masaru; Ying, Saixia; Zhang, Gen-Mu; Li, Cuiling; Cheng, Steven Y.; Deng, Chu‐Xia; Zhang, Ying E.

doi:10.1016/j.cell.2005.01.035

Cited by 329 publications

(380 citation statements)

References 52 publications

(87 reference statements)

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“…To this end, dSmurf, the Drosophila Smurf, was shown to restrict DPP signaling during Drosophila embryonic development, supporting the idea that by targeting R-Smads for degradation dSmurf is a negative regulator of TGF-β signaling in vivo [92]. In contrast, knockout of the Smurf1 gene in mice did not manifest phenotypes that implicate Smurf1 function in R-Smads degradation [93]. Rather, Smurf1 appeared to be a critical regulator of the abundance of MEKK2 [93].…”

Section: Ubiquitinationmentioning

confidence: 87%

Regulation of Smad activities

2006

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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TGF-β (Transforming Growth Factor-β) cytokines employ the Smad proteins as the intracellular mediator of signaling. Upon TGF-β stimulation, the cytoplasmic Smads become phosphorylated and consequently accumulate in the nucleus to regulate target gene expression. The cytoplasm-to-nucleus redistribution of Smads, as well as the ability of Smads to activate or repress gene transcription, is under multiple layers of regulation by factors not limited to TGF-β. With recent advance in the knowledge of regulatory factors impinged on Smads, we are beginning to understand the complexity in cellular responses to TGF-β.

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Section: Ubiquitinationmentioning

confidence: 87%

Regulation of Smad activities

2006

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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“…Another transcription factor, Atf4 regulates bone matrix deposition by mature osteoblasts [25]. Furthermore, several signaling pathways have been shown to regulate postnatal osteoblast function including Ihh [26], Wnt/Lrp5 [27], TGFb-BMP/Smads [28][29][30], BMP/MEKK2/MEK5-7/Jnk [31], b-adrenergic [32], IGF-1 [16], insulin [33] and PTH signaling [34]. The p38 MAPK pathway has been recently shown to be an essential regulator of osteoblastogenesis during skeletogenesis [12,13].…”

Section: Discussionmentioning

confidence: 99%

The p38α MAPK positively regulates osteoblast function and postnatal bone acquisition

Thouverey

Caverzasio

2012

Cell. Mol. Life Sci.

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Bone continuously remodels throughout life by coordinated actions of osteoclasts and osteoblasts. Abnormalities in either osteoclast or osteoblast functions lead to bone disorders. The p38 MAPK pathway has been shown to be essential in controlling osteoblast differentiation and skeletogenesis. Although p38a is the most abundant p38 member in osteoblasts, its specific individual contribution in regulating postnatal osteoblast activity and bone metabolism is unknown. To elucidate the specific role of p38a in regulating osteoblast function and bone homeostasis, we generated mice lacking p38a in differentiated osteoblasts. Osteoblast-specific p38a knockout mice were of normal weight and size. Despite non-significant bone alterations until 5 weeks of age, mutant mice demonstrated significant and progressive decrease in bone mineral density from that age. Adult mice deficient in p38a in osteoblasts displayed a striking reduction in cancellous bone volume at both axial and appendicular skeletal sites. At 6 months of age, trabecular bone volume was reduced by 62 % in those mice. Mutant mice also exhibited progressive decrease in cortical thickness of long bones. These abnormalities correlated with decreased endocortical and trabecular bone formation rate and reduced expressions of type 1 collagen, alkaline phosphatase, osteopontin and osteocalcin whereas bone resorption and osteoclasts remained unaffected. Finally, osteoblasts lacking p38a showed impaired marker gene expressions and defective mineralization in vitro. These findings indicate that p38a is an essential positive regulator of osteoblast function and postnatal bone formation in vivo.

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“…E3 ubiquitin ligase Smurf1 inhibits MEKK2 expression by catalysing K48-linked ubiquitination of MEKK2 (ref. 24). We explored whether Stk38 affected the regulation of MEKK2 expression by Smurf1.…”

Section: Stk38 Inhibits Tlr9-mediated Inflammatory Responsesmentioning

confidence: 99%