Mitogen-regulated RSK2-CBP interaction controls their kinase and acetylase activities.

The protein kinase ribosomal S6 kinase 2 (RSK2) has been implicated in phosphorylation of transcription factor CREB and histone H3 in response to mitogenic stimulation by epidermal growth factor. Binding of phospho-CREB to the coactivator CBP allows gene activation through recruitment of the basal transcriptional machinery. Acetylation of H3 by histone acetyltransferase (HAT) activities, such as the one carried by CBP, has been functionally coupled to H3 phosphorylation. While various lines of evidence indicate that coupled histone acetylation and phosphorylation may act in concert to induce chromatin remodeling events facilitating gene activation, little is known about the coupling of the two processes at the signaling level. Here we show that CBP and RSK2 are associated in a complex in quiescent cells and that they dissociate within a few minutes upon mitogenic stimulus. CBP preferentially interacts with unphosphorylated RSK2 in a complex where both RSK2 kinase activity and CBP acetylase activity are inhibited. Dissociation is dependent on phosphorylation of RSK2 on Ser227 and results in stimulation of both kinase and HAT activities. We propose a model in which dynamic formation and dissociation of the CBP-RSK2 complex in response to mitogenic stimulation allow regulated phosphorylation and acetylation of specific substrates, leading to coordinated modulation of gene expression.

Mutations in the X-linked RSK2 gene (RPS6KA3) in patients with Coffin-Lowry syndrome.

RSK2 is a growth factor-regulated serine-threonine protein kinase, acting in the Ras-Mitogen-Activated Protein Kinase (MAPK) signaling pathway. Mutations in the RSK2 gene (RPS6KA3) on chromosome Xp22.2, have been found to cause Coffin-Lowry syndrome (CLS), an X-linked disorder characterized by psychomotor retardation, characteristic facial and digital abnormalities, and progressive skeletal deformations. By screening of 250 patients with clinical features suggestive of Coffin-Lowry syndrome, 71 distinct disease-associated RSK2 mutations have been identified in 86 unrelated families. Thirty-eight percent of mutations are missense mutations, 20% are nonsense mutations, 18% are splicing errors, and 21% are short deletion or insertion events. About 57% of mutations result in premature translation termination, and the vast majority are predicted to cause loss of function of the mutant allele. These changes are distributed throughout the RSK2 gene and show no obvious clustering or phenotypic association. However, some missense mutations are associated with milder phenotypes. In one family, one such mutation was associated solely with mild mental retardation. It is noteworthy that nine mutations were found in female probands, with no affected male relatives, ascertained through learning disability and mild but suggestive facial and digital dysmorphisms.

Activation of RSK by UV-light: phosphorylation dynamics and involvement of the MAPK pathway.

Ribosomal S6 kinases (RSKs) are serine/threonine kinases activated by mitogenic signals through the Mitogen-Activated Protein Kinases/Extracellular Signal-Regulated Kinases (MAPK/ERK). RSKs contain two heterologous complete protein kinase domains. Phosphorylation by ERK of the C-terminal kinase domain allows activation of the N-terminal kinase domain, which mediates substrate phosphorylation. In human, there are three isoforms of RSK (RSK1, RSK2, RSK3), whose functional specificity remains undefined. Importantly, we have shown that mutations in the RSK2 gene lead to the Coffin-Lowry syndrome (CLS). In this study, we characterize two monoclonal antibodies raised against phosphorylated forms of the N- and C-terminal domain of RSK2 (P-S227 and P-T577, respectively). Using these two antibodies, we show that stress signals, such as UV light, induce phosphorylation and activation of the three RSKs to an extent which is comparable to Epidermal Growth Factor (EGF)-mediated activation. The use of specific kinase inhibitors indicates that UV-induced phosphorylation and activation of RSK2 is mediated by the MAPK/ERK pathway, but that the Stress-Activated Protein Kinase 2 (SAPK2)/p38 pathway is also involved. These results modify the view of RSKs as kinases restricted to the mitogenic response and reveal a previously unappreciated role of MAPKs in stress induced signaling. Oncogene (2000) 19, 4221 - 4229

Non-random distribution of mutations in the PHEX gene, and under-detected missense mutations at non-conserved residues.

Thirty newly detected mutations in the PHEX gene are reported, and pooled with all the previously published mutations. The spectrum of mutations displayed 16% deletions, 8% insertions, 34% missense, 27% nonsense, and 15% splice site mutations, with two peaks in exon 15, and 17. Since 32.8% of PHEX amino acids were conserved in the endopeptidases family, the number of missense mutations detected at non-conserved residues was smaller than expected, whereas the number of nonsense mutations observed at non-conserved residues was very close to the expected number. Compared with conserved amino acids, the changes in non-conserved amino acids may result in benign polymorphisms or possibly mild disease that may go undiagnosed.

Rapid immunoblot and kinase assay tests for a syndromal form of X linked mental retardation: Coffin-Lowry syndrome.

Coffin-Lowry syndrome (CLS) is a syndromal form of X linked mental retardation, in which some associated facial, hand, and skeletal abnormalities are diagnostic features. Accurate diagnosis, critical for genetic counselling, is often difficult, especially in early childhood. We have recently shown that Coffin-Lowry syndrome is caused by mutations in the gene encoding RSK2, a growth factor regulated protein kinase. RSK2 mutations are very heterogeneous and most of them lead to premature termination of translation or to loss of phosphotransferase activity or both. In the present study, we have evaluated immunoblot and RSK2 kinase assays as a rapid and simple diagnostic test for CLS, using cultured lymphoblastoid or fibroblast cell lines. Western blot analysis failed to detect RSK2 in six patients, suggesting the presence of truncated proteins in these patients. This conclusion was confirmed in four patients, in whom the causative mutations, all leading to premature termination of translation, were identified. Of four patients showing a normal amount of RSK2 protein on western blot and tested for RSK2 phosphotransferase activity, one had a dramatically impaired activity. Analysis of the RSK2 cDNA sequence in this patient showed a mutation of a putative phosphorylation site that would be critical for RSK2 activity. Preliminary results show that, at least, the western blot protocol can be successfully applied to lymphocyte protein extracts prepared directly from blood samples. These assays promise to become important diagnostic tools for CLS, particularly with regard to very young patients with no family history of the condition.

Mutation analysis of the RSK2 gene in Coffin-Lowry patients: extensive allelic heterogeneity and a high rate of de novo mutations.

Coffin-Lowry syndrome (CLS) is an X-linked disorder characterized by severe psychomotor retardation, facial and digital dysmorphisms, and progressive skeletal deformations. By using a positional cloning approach, we have recently shown that mutations in the gene coding for the RSK2 serine-threonine protein kinase are responsible for this syndrome. To facilitate mutational analysis, we have now determined the genomic structure of the human RSK2 gene. The open reading frame of the RSK2 coding region is split into 22 exons. Primers were designed for PCR amplification of single exons from genomic DNA and subsequent single-strand conformation polymorphism analysis. We screened 37 patients with clinical features suggestive of CLS. Twenty-five nucleotide changes predicted to be disease-causing mutations were identified, including eight splice-site alterations, seven nonsense mutations, five frameshift mutations, and five missense mutations. Twenty-three of them were novel mutations. Coupled with previously reported mutations, these findings bring the total of different RSK2 mutations to 34. These are distributed throughout the RSK2 gene, with no clustering, and all but two, which have been found in two independent patients, are unique. A very high (68%) rate of de novo mutations was observed. It is noteworthy also that three mutations were found in female probands, with no affected male relatives, ascertained through learning disability and mild but suggestive facial and digital dysmorphisms. No obvious correlation was observed between the position or type of the RSK2 mutations and the severity or particular clinical features of CLS.

Germline mosaicism in Coffin-Lowry syndrome.

We have identified a Coffin-Lowry syndrome pedigree where the disorder is associated with a novel splice site mutation in the RSK2 gene, leading to in-phase skipping of exon 5. Western blot analysis, using an antibody directed against the C-terminus of RSK2, failed to reveal RSK2 in this patient, suggesting strongly that the resulting internally deleted protein is unstable. The mutation was present in the DNA of one affected son and one manifesting daughter but was absent in two asymptomatic daughters, who carry the at-risk haplotype, and in the mother's somatic cell (lymphocyte) DNA. The results are consistent with the mutation arising as a postzygotic event in the mother, who therefore is a germinal mosaic. The application of linked markers to identify the disease allele for conventional genetic counselling would have been misleading in this family. This observation again highlights the importance of precise identification of the disease-causing mutation.

A second family with XLRH displays the mutation S244L in the CLCN5 gene.

Mutations in the CLCN5 gene, mapped in Xp11.22, have been recently reported to be associated with X-linked nephrolithiasis, X-linked recessive hypophosphataemic rickets and Dent's disease. We report a missense mutation in exon 6 of the CLCN5 gene. The mutation in this pedigree is S244L, the same mutation as has previously been described in an Italian family showing a similar pathology. However, in the family reported here, affected males have developed neither nephrolithiasis nor nephrocalcinosis. The question arises whether we are dealing with a milder phenotype or whether a more severe pathology will develop with ageing.

Distribution of mutations in the PEX gene in families with X-linked hypophosphataemic rickets (HYP).

Mutations in the PEX gene at Xp22.1 (phosphate-regulating gene with homologies to endopeptidases, on the X-chromosome), are responsible for X-linked hypophosphataemic rickets (HYP). Homology of PEX to the M13 family of Zn2+ metallopeptidases which include neprilysin (NEP) as prototype, has raised important questions regarding PEX function at the molecular level. The aim of this study was to analyse 99 HYP families for PEX gene mutations, and to correlate predicted changes in the protein structure with Zn2+ metallopeptidase gene function. Primers flanking 22 characterised exons were used to amplify DNA by PCR, and SSCP was then used to screen for mutations. Deletions, insertions, nonsense mutations, stop codons and splice mutations occurred in 83% of families screened for in all 22 exons, and 51% of a separate set of families screened in 17 PEX gene exons. Missense mutations in four regions of the gene were informative regarding function, with one mutation in the Zn2+-binding site predicted to alter substrate enzyme interaction and catalysis. Computer analysis of the remaining mutations predicted changes in secondary structure, N-glycosylation, protein phosphorylation and catalytic site molecular structure. The wide range of mutations that align with regions required for protease activity in NEP suggests that PEX also functions as a protease, and may act by processing factor(s) involved in bone mineral metabolism.

Mutations in the kinase Rsk-2 associated with Coffin-Lowry syndrome.

The Coffin-Lowry syndrome (CLS), an X-linked disorder, is characterized by severe psychomotor retardation, facial and digital dysmorphisms, and progressive skeletal deformations. Genetic linkage analysis mapped the CLS locus to an interval of 2-3 megabases at Xp22.2. The gene coding for Rsk-2, a member of the growth-factor-regulated protein kinases, maps within the candidate interval, and was tested as a candidate gene for CLS. Initial screening for mutations in the gene for Rsk-2 in 76 unrelated CLS patients revealed one intragenic deletion, a nonsense, two splice site, and two missense mutations. The two missenses affect sites critical for the function of Rsk-2. The mutated Rsk-2 proteins were found to be inactive in a S6 kinase assay. These findings provide direct evidence that abnormalities in the MAPK/RSK signalling pathway cause Coffin-Lowry syndrome.

Use of the Autobac system for detection of methicillin-resistant Staphylococcus aureus.

Using 490 strains of Staphylococcus aureus divided into methicillin-susceptible, -resistant, and -heteroresistant varieties, we compared the results obtained by the agar disk method with those obtained with the automated Autobac system. Susceptible strains exhibited a perfect correlation, whereas there were numerous discrepancies with resistant and still more with heteroresistant varieties. When incubation was increased to 18 h at 37 degrees C (Autobac incubation temperature), 35 degrees C, or 30 degrees C, these differences disappeared, but other problems may arise when incubation is prolonged, especially with erythromycin. We thus recommend carrying out two readings, a normal one after 3 h of incubation and a special reading after 18 h, solely for the detection of heteroresistance to methicillin.