MAPKAP kinase 2 phosphorylates serum response factor in vitro and in vivo

Several growth factor- and calcium-regulated kinases such as pp90(rsk) or CaM kinase IV can phosphorylate the transcription factor serum response factor (SRF) at serine 103 (Ser-103). However, it is unknown whether stress-regulated kinases can also phosphorylate SRF. We show that treatment of cells with anisomycin, arsenite, sodium fluoride, or tetrafluoroaluminate induces phosphorylation of SRF at Ser-103 in both HeLa and NIH3T3 cells. This phosphorylation is dependent on the kinase p38/SAPK2 and correlates with the activation of MAPKAP kinase 2 (MK2). MK2 phosphorylates SRF in vitro at Ser-103 with similar efficiency as the small heat shock protein Hsp25 and significantly better than CREB. Comparison of wild type murine fibroblasts with those derived from MK2-deficient mice (Mk(-/-)) reveals MK2 as the major SRF kinase induced by arsenite. These results demonstrate that SRF is targeted by several signal transduction pathways within cells and establishes SRF as a nuclear target for MAPKAP kinase 2.

Cystatin C--a new marker of glomerular filtration rate in children independent of age and height

OBJECTIVES

Serum creatinine is the most common endogenous marker of renal function. The proportionality between creatinine production and muscle mass requires adjustment for height and body composition. The low molecular weight protein cystatin C is produced by all nucleated cells and eliminated by glomerular filtration. Therefore, cystatin C was studied as an alternative marker of glomerular filtration rate (GFR) in children.

METHODS

Cystatin C and creatinine were measured in sera from inulin clearance (CIn) examinations performed in 184 children aged 0.24 to 17.96 years. CIn ranged from 7 to 209 mL/min/1.73 m (median, 77).

RESULTS

The reciprocal of cystatin C correlated better with CIn (r = 0.88) than the reciprocal of creatinine (r = 0.72). Stepwise regression analysis identified no covariates for the correlation between cystatin C and CIn, whereas height was a covariate for creatinine. Using an estimate of GFR from serum creatinine and height, correlation with CIn was similar to cystatin C, but female gender and dystrophy were associated with an overestimation of GFR. Diagnostic accuracy in the identification of reduced GFR measured as area under the receiver-operating characteristic plot was 0.970 +/- 0.135 (mean +/- SE) for cystatin C and 0.894 +/- 0.131 for creatinine (NS). A cutoff cystatin C concentration of 1.39 mg/L had 90% sensitivity and 86% specificity for detecting abnormal GFR.

CONCLUSION

Unlike creatinine, serum cystatin C reflects renal function in children independent of age, gender, height, and body composition.

Reference values for cystatin C serum concentrations in children

Cystatin C, a low molecular weight protein, is a new endogenous marker of renal function whose serum concentration correlates better with glomerular filtration rate than creatinine. The aim of the present study was to define a reference interval for cystatin C concentrations in children. Cystatin C was measured by an immunoturbidimetric assay in sera obtained from 258 children (93 girls, 165 boys, median age 6.29 years, range 1 day to 18 years) without evidence of kidney disease. The reference interval was calculated non-parametrically using the 2.5th and 97.5th percentiles. For comparison, creatinine was measured in the same samples. The cystatin C concentration was highest on the first days of life (range 1.64-2.59 mg/l) with a rapid decrease during the first 4 months. Beyond the 1st year, the cystatin C concentration was constant, with a reference interval of 0.7-1.38 mg/l. In contrast, serum creatinine concentrations steadily increased with age until adulthood. Compared with creatinine, cystatin C facilitates the recognition of abnormal renal function in children as its reference range is constant beyond the 1st year of life. The higher levels of cystatin C in the 1st year of life probably reflect the low glomerular filtration rate of neonates and infants.

Protein synthesis inhibitors reveal differential regulation of mitogen-activated protein kinase and stress-activated protein kinase pathways that converge on Elk-1

Inhibitors of protein synthesis, such as anisomycin and cycloheximide, lead to superinduction of immediate-early genes. We demonstrate that these two drugs activate intracellular signaling pathways involving both the mitogen-activated protein kinase (MAPK) and stress-activated protein kinase (SAPK) cascades. The activation of either pathway correlates with phosphorylation of the c-fos regulatory transcription factor Elk-1. In HeLa cells, anisomycin stabilizes c-fos mRNA when protein synthesis is inhibited to only 50%. Under these conditions, anisomycin, in contrast to cycloheximide, rapidly induces kinase activation and efficient Elk-1 phosphorylation. However, full inhibition of translation by either drug leads to prolonged activation of SAPK activity, while MAPK induction is transient. This correlates with prolonged Elk-1 phosphorylation and c-fos transcription. Elk-1 induction and c-fos activation are also observed in KB cells, in which anisomycin strongly induces SAPKs but not MAPKs. Purified p54 SAPK alpha efficiently phosphorylates the Elk-1 C-terminal domain in vitro and comigrates with anisomycin-activated kinases in in-gel kinase assays. Thus, Elk-1 provides a potential convergence point for the MAPK and SAPK signaling pathways. The activation of signal cascades and control of transcription factor function therefore represent prominent processes in immediate-early gene superinduction.

Involvement of growth factor receptors in the mammalian UVC response

Irradiation of HeLa cells with short-wavelength ultraviolet light (UVC) induces the modification and activation of the preexisting transcription factors c-Fos-c-Jun (AP-1) and TCF/Elk-1, as well as the protein synthesis independent transcriptional activation of the c-fos and c-jun genes. This response to UVC is mediated via obligatory cytoplasmic signal transduction, involving Ras and Raf, Src, and MAP kinases. The UVC response is inhibited by prior down-modulation of growth factor receptor signaling upon growth factor prestimulation, by suramin (an inhibitor of receptor activation) or by expression of a dominant negative epidermal growth factor (EGF) receptor mutant. These data suggest the involvement of several growth factor receptors in the UVC response. Indeed, UVC induces the suramin-inhibitable immediate tyrosine phosphorylation of the EGF receptor.

Heterogeneity of ternary complex factors in HeLa cell nuclear extracts

Ternary complex factors (TCFs) interact with the serum response factor and DNA containing the c-fos serum response element to form a ternary complex that mediates induction of c-fos. TCF activities were partially purified from HeLa cell nuclear extracts by DNA-cellulose and anion-exchange chromatography followed by two-dimensional gel electrophoresis. Four different protein spots (p60TCF, p62TCF, p62.5TCF, and p64TCF) show renaturable TCF activity. One, p62TCF, was indistinguishable from the Ets protein Elk-1 in gel shift analyses, while none of the HeLa TCFs resembled the other cloned TCFs, SAP-1a and SAP-1b. In two-dimensional gel analysis, Elk-1, SAP-1a, and SAP-1b displayed different pI and M(r) values and in vitro synthesized Elk-1 comigrated with the p62TCF spot. Both reacted with Elk-1 specific antisera, as did the major proportion of TCF activity present in HeLa crude extracts. We conclude that p62TCF is composed of Elk-1, whereas the identities of the other identified TCFs (p60TCF, p62.5TCF, and p64TCF) are still unknown.

Functional dissection of the transcription factor Elk-1

The ternary complex factor Elk-1 belongs to the Ets oncoprotein family. We demonstrate that this transcription factor is localized predominantly in the nucleus, for which at least two regions of Elk-1 are required. One of these regions is part of the N-terminal ETS-domain, while the other encompasses amino acids 137-157. In conjunction with the ETS-domain, which mediates autonomous binding of Elk-1 to some DNA target sequences, the conserved B-region is both necessary and sufficient for ternary complex formation with the c-fos serum response element and the serum response factor. However, the B-region must be linked to the ETS-domain by a spacer. Furthermore, the B-region impedes autonomous DNA-binding, possibly by masking the ETS-domain. A point mutation within the ETS-domain, homologous to the ts1.1 point mutation of v-Ets in the E26 virus, affects DNA-binding of Elk-1 in a temperature-dependent manner, which by analogy might be causative for the altered phenotype of ts1.1 E26. Finally we show that amino acids 83-428 contribute to Elk-1 mediated transactivation. In particular, the region 376-404 is indispensable for transactivation, while flanking amino acids on both sides are only required for enhancement of transcriptional efficacy.

c-fos transcriptional activation and repression correlate temporally with the phosphorylation status of TCF

EGF-induction of human astrocytoma and A431 cells leads to c-fos transcriptional activation and then repression. This could be correlated with changes in the DNA binding characteristics of the c-fos regulatory protein ternary complex factor (TCF) present in nuclear extracts from these cells. Band shifts showed the appearance of induction-related slowly migrating protein-DNA complexes, detected as ternary complexes on the c-fos SRE using a truncated SRF molecule and by direct binding to the Drosophila E74 Ets-protein recognition sequence. By several criteria both types of complexes represented TCF. The appearance of the slow ternary and direct complexes correlated with c-fos transcriptional activation, and their disappearance coincided with the ensuing c-fos shut-off. Blocking c-fos transcriptional repression with the phosphatase inhibitor okadaic acid led to their continued presence. They were sensitive to protein phosphatase 2A but not 1 alpha, and similar slow complexes were formed by partially purified p62TCF phosphorylated by a copurifying kinase activity. Thus the phosphorylation state of TCF correlated strongly with c-fos promoter activity. Since ternary complex formation mediated by full-sized SRF was only slightly affected under comparable conditions, we propose a model for c-fos regulation involving modification of constitutively bound TCF.

Translational coupling varying in efficiency between different pairs of genes in the central region of the atp operon of Escherichia coli

A series of atp::lacZ fusions has been constructed for use in a study of translational coupling in the central region of the Escherichia coli atp operon. Five genes, atpE, atpF, atpH, atpA and atpG, were shown to be translationally coupled to various degrees of tightness. A new lac promoter vector, compatible with the atp::lacZ fusion vectors, was used to express individual atp genes in the same hosts as the fusion genes. The H(+)-ATPase subunits thus synthesized exercised no significant trans-regulation on the expression of the atp::lacZ fusions, indicating that the coupling is primarily cis. The mechanism of this coupling was investigated using in vitro mutagenesis. At least in the case of the pair atpHA, coupling seems to involve facilitated binding of fresh ribosomes to the atpA translational initiation regions.