TAT fusion proteins containing tyrosine 42-deleted IkappaBalpha arrest osteoclastogenesis
- PMID: 11408488
- DOI: 10.1074/jbc.M104725200
TAT fusion proteins containing tyrosine 42-deleted IkappaBalpha arrest osteoclastogenesis
Abstract
In most circumstances, NF-kappaB, which is essential for osteoclastogenesis, is activated following serine 32/36 phosphorylation of its cytosolic inhibitory protein, IkappaBalpha. In contrast to other cell types, IkappaBalpha, in bone marrow macrophages (BMMs), which are osteoclast precursors, is tyrosine-phosphorylated by c-Src kinase. To address the role of IkappaBalpha phosphorylation in osteoclastogenesis, we generated TAT fusion proteins containing wild-type IkappaBalpha (TAT-WT-IkappaB), IkappaBalpha lacking its NH(2)-terminal 45 amino acids (TAT-IkappaB(46-317)), and IkappaBalpha in which tyrosine residue 42, the c-Src target, is mutated into phenylalanine (TAT-IkappaB(Y42F)). TAT-IkappaB efficiently enters BMMs, and the NF-kappaB-inhibitory protein, once intracellular, is functional. While TAT-WT-IkappaB only slightly inhibits osteoclastogenesis, osteoclast recruitment is diminished >80% by TAT-IkappaB(46-317), an event mirrored by dentin resorption. The fact that TAT alone does not impact osteoclastogenesis, which also resumes following withdrawal of TAT-IkappaB(46-317), establishes that the mutant's anti-osteoclastogenic properties do not reflect toxicity. Affirming a functional role for IkappaB(Tyr(42)) in osteoclastogenesis, TAT-IkappaB(Y42F) is as efficient as TAT-IkappaB(46-317) in blocking osteoclast differentiation. Thus, dominant-negative IkappaBalpha constructs block osteoclastogenesis, and Tyr(42) is essential to the process, increasing the possibility that nonphosphorylatable forms of IkappaBalpha may be a means of preventing pathological bone loss.
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