Rhamm (receptor for hyaluronan-mediated motility) is an hyaluronan binding protein with limited expression in normal tissues and high expression in advanced cancers. To understand its physiological functions and identify the molecular mechanisms underlying these functions, we created mice with a genetic deletion of Rhamm. We show that Rhamm−/− fibroblasts fail to resurface scratch wounds >3 mm or invade hyaluronan-supplemented collagen gels in culture. We identify a requirement for Rhamm in the localization of CD44 to the cell surface, formation of CD44–ERK1,2 (extracellular-regulated kinase 1,2) complexes, and activation/subcellular targeting of ERK1,2 to the cell nucleus. We also show that cell surface Rhamm, restricted to the extracellular compartment by linking recombinant protein to beads, and expression of mutant active mitogen-activated kinase kinase 1 (Mek1) are sufficient to rescue aberrant signaling through CD44–ERK1,2 complexes in Rh−/− fibroblasts. ERK1,2 activation and fibroblast migration/differentiation is also defective during repair of Rh−/− excisional skin wounds and results in aberrant granulation tissue in vivo. These results identify Rhamm as an essential regulator of CD44–ERK1,2 fibroblast motogenic signaling required for wound repair.
Most chloroplast and mitochondrial proteins are synthesized with N-terminal presequences that direct their import into the appropriate organelle. In this report we have analyzed the specificity of standard in vitro assays for import into isolated pea chloroplasts and mitochondria. We find that chloroplast protein import is highly specific because mitochondrial proteins are not imported to any detectable levels. Surprisingly, however, pea mitochondria import a range of chloroplast protein precursors with the same efficiency as chloroplasts, including those of plastocyanin, the 33-kDa photosystem II protein, Hcf136, and coproporphyrinogen III oxidase. These import reactions are dependent on the ⌬ across the inner mitochondrial membrane, and furthermore, marker enzyme assays and Western blotting studies exclude any import by contaminating chloroplasts in the preparation. The pea mitochondria specifically recognize information in the chloroplast-targeting presequences, because they also import a fusion comprising the presequence of coproporphyrinogen III oxidase linked to green fluorescent protein. However, the same construct is targeted exclusively into chloroplasts in vivo indicating that the in vitro mitochondrial import reactions are unphysiological, possibly because essential specificity factors are absent in these assays. Finally, we show that disruption of potential amphipathic helices in one presequence does not block import into pea mitochondria, indicating that other features are recognized.
Phosphorylation of the transit peptide of several chloroplast‐targeted proteins enables the binding of 14‐3‐3 proteins. The complex that forms, together with Hsp70, has been demonstrated to be an intermediate in the chloroplast protein import pathway in vitro[May, T. & Soll, J. (2000) Plant Cell12, 53–63]. In this paper we report that mutagenesis (in order to remove the phosphorylation site) of the transit peptide of the small subunit of ribulose bisphosphate carboxylase/oxygenase did not affect its ability to target green fluorescent protein to chloroplasts in vivo. We also found no mistargeting to other organelles such as mitochondria. Similar alterations to the transit peptides of histidyl‐ or cysteinyl‐tRNA synthetase, which are dual‐targeted to chloroplasts and mitochondria, had no effect on their ability to target green fluorescent protein in vivo. Thus, phosphorylation of the transit peptide is not responsible for the specificity of chloroplast import.
Inactivation of integrin-linked kinase in the stem cells of the hair follicle bulge results in impaired skin regeneration after injury but does not affect hair follicle entry into anagen.
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