Nuclear localization of the tyrosine kinase Itk and interaction of its SH3 domain with karyopherin alpha (Rch1alpha).

We report a physical and functional association between the Tec-family tyrosine kinase Itk (Emt/Tsk) and the nuclear import chaperone karyopherin alpha (Rch1alpha) in human T cells. The Itk-SH3 domain and the Rch1alpha proline-rich (PR) motif were crucial for the Itk/Rch1alpha constitutive interaction as demonstrated by directed mutagenesis of the Rch1alpha PR motif (proline 242 to alanine, P242A). TCR-CD3 stimulation of Jurkat T cells resulted in increased Itk/Rch1alpha complex formation, recruitment of karyopherin beta to the protein complex and Rch1alpha tyrosine phosphorylation. Analysis of in vitro kinase reactions with a panel of recombinant glutathione-S-transferase (GST) fusion tyrosine kinases (Itk, Lck, ZAP-70 and Jak3) revealed that only GST-Itk efficiently phosphorylated a recombinant GST-Rch1alpha fusion. We observed constitutive nuclear localization of Itk that was up-regulated following either TCR-CD3 stimulation or over-expression of wild-type Rch1alpha in T cells. Further, nuclear localization of Itk and TCR-CD3-mediated IL-2 production were significantly down-regulated following expression of the Rch1alpha-P242A mutant, implicating a role for Rch1alpha in the nuclear translocation of Itk.

Engagement of the T lymphocyte antigen receptor regulates association of son-of-sevenless homologues with the SH3 domain of phospholipase Cgamma1.

One mechanism for transducing signals downstream of lymphocyte receptor activation involves the stable association between signaling proteins. To identify protein ligands of the signal activator phospholipase Cgamma1 (PLCgamma1), we screened T cell cDNA libraries with the PLCgamma1-SH3 domain by the yeast two-hybrid assay. We observed association between the PLCgamma1-SH3 domain and the human Ras guanine nucleotide exchange factor son-of-sevenless-2 (hSos2) through a proline-rich domain interaction. Stable and abundant hSos2 / PLCgamma1 and hSos1 / PLCgamma1 complexes were observed in unstimulated T cells. The interaction between these enzymes was augmented following engagement of the T cell antigen receptor (TCR / CD3). The kinetics of protein complex enhancement correlated with TCR / CD3-induced tyrosine phosphorylation of PLCgamma1; however, those PLCgamma1 molecules in complex with hSos2 were non-phosphorylated after TCR / CD3 stimulation, in contrast to the phosphorylated PLCgamma1 associated with the linker for activation of T cells, LAT. The Grb2 adapter protein was detected in complex with hSos / PLCgamma1, suggesting a regulatory role for Grb2. SH3 domains from both Grb2 and PLCgamma1, but not RasGAP, bound directly to hSos homologues. The SH2 domain from Grb2 formed an association with the hSos / PLCgamma1 complex, which was enhanced following TCR / CD3 ligation. Together, the data suggest a mechanism for the son-of-sevenless and PLCgamma1 signal transducing enzymes in recruitment to protein complexes with potentially differential signaling consequences in T lymphocytes.

The 4q-syndrome: delineation of the minimal critical region to within band 4q31.

A consistent phenotype has been associated with deletion of the distal long arm of chromosome 4. An invariant requirement for the phenotype in cases described so far has been the deletion of material from within band 4q31 but few other cases have been described that further aid the delineation of the minimum critical region sufficient for the expression of the phenotype. We report a child with a small interstitial deletion within band 4q31 who exhibits most of the features of the established 4q-phenotype.

Purification of the centromere-specific protein CENP-A and demonstration that it is a distinctive histone.

CENP-A, a centromere-specific 17-kDa protein, has histone-like properties. However, in contrast to the common somatic histones, CENP-A is quantitatively retained in bull spermatozoa, and we have exploited this fact to purify CENP-A to apparent homogeneity. Partial sequence analysis of the purified protein indicates that CENP-A is a distinctive gene product. Some CENP-A sequences are highly similar to regions of histone H3. Other segments of CENP-A are not related to H3 or any other histone. These unrelated segments are presumably involved in localizing CENP-A to centromeric DNA or in centromere-specific functions of CENP-A.

The centromere specific histone CENP-A is selectively retained in discrete foci in mammalian sperm nuclei.

The 17 kDa human autoantigen designated CENP-A is a centromere specific histone. We show here that CENP-A is present in tissue of bovine origin, and that it is quantitatively retained in mature spermatozoa. This result is striking, as a prominent feature of spermatogenesis in mammals is the replacement of most somatic and testes specific histones with protamines. Indirect immunofluorescence studies further show that CENP-A is retained in sperm nuclei in discrete foci, rather than being dispersed throughout the sperm head. These observations suggest that CENP-A is a functionally important component of centromeres, and that pre-existing CENP-A:DNA interactions are likely to be important in organizing the centromeres of the paternal genome during early embryogenesis.

Cloning and characterization of dnaA(Cs), a mutation which leads to overinitiation of DNA replication in Escherichia coli K-12.

The product of the dnaA gene is essential for the initiation of chromosomal DNA replication in Escherichia coli K-12. A cold-sensitive mutation, dnaA(Cs), was originally isolated as a putative intragenic suppressor of the temperature sensitivity of a dnaA46 mutant (G. Kellenberger-Gujer, A. J. Podhajska, and L. Caro, Mol. Gen. Genet. 162:9-16, 1978). The cold sensitivity of the dnaA(Cs) mutant was attributed to a loss of replication control resulting in overinitiation of DNA replication. We cloned and sequenced the dnaA gene from the dnaA(Cs) mutant and showed that it contains three point mutations in addition to the original dnaA46(Ts) mutation. The dnaA(Cs) mutation was dominant to the wild-type allele. Overproduction of the DnaA(Cs) protein blocked cell growth. In contrast, overproduction of wild-type DnaA protein reduced the growth rate of cells but did not stop cell growth. Thus, the effect of elevated levels of the DnaA(Cs) protein was quite different from that of the wild-type protein under the same conditions.

A 17-kD centromere protein (CENP-A) copurifies with nucleosome core particles and with histones.

We have detected and begun to characterize a 17-kD centromere-specific protein, CENP-A (Earnshaw, W. C., and N. Rothfield, 1985, Chromosoma., 91:313-321). Sera from several humans with CREST scleroderma autoimmune disease (CREST: calcinosis, Raynaud's phenomenon, esophageal dsymotility, sclerodactyly, and telangiectasia) bind this protein in immunoblot assays of HeLa whole cell or nuclear extracts. We have affinity purified the anti-17-kD centromere protein (anti-CENP-A) specific antibodies from immunoblots of HeLa nuclear protein. The antibodies react with epitopes present on CENP-A derived from humans but apparently do not recognize specific epitopes in either rat or chicken nuclei. Only human nuclear protein is CENP-A positive by immunoblot. Furthermore, human cells show localization of anti-CENP-A antibody to centromeres by immunofluorescence microscopy, whereas rat cells do not. On extraction from the nucleus, CENP-A copurifies with core histones and with nucleosome core particles. We conclude that this centromere-specific protein is a histone-like component of chromatin. The data suggest that CENP-A functions as a centromere-specific core histone.

Autoregulation of the DNA replication gene dnaA in E. coli K-12.

The dnaA gene in E. coli K-12 is required for the initiation of DNA replication. Although the specific function of the dnaA protein is unknown, it has been suggested that it is a regulator of the frequency of initiation. In this paper we report that the expression of both a dnaA-lacZ translational fusion and a dnaA-trpA-lacZ transcriptional fusion in vivo are sensitive to changes in the level of functional dnaA protein. Overproduction of the dnaA gene product leads to a reduction in expression from both fusions while introduction of dnaA- alleles results in an increased expression. Results from a deletion analysis of the dnaA promoter/regulatory region suggest that both dnaA promoters are regulated by the dnaA gene product and that a site between the two promoters is responsible for the regulation. DNAase protection experiments showed that the dnaA protein binds to DNA in the region of the two dnaA promoters. Our results indicate that the dnaA gene product regulates its own synthesis by inhibiting transcription from both of its promoters.

Dietary ascorbic acid and resistance to experimental renal candidiasis.

Guinea pigs were maintained for various periods of time on low (0.5 mg/day), intermediate (20 mg/day), or high (100 and 500 mg/day) levels of dietary ascorbic acid. Animals in each experimental group were challenged with Candida albicans via cardiac injection, and the course of infection in the kidneys was assessed. The results show that the animals receiving only 0.5 mg of ascorbic acid per day were significantly more susceptible to the infection than animals maintained on any higher level of dietary ascorbic acid. The greater susceptibility of the guinea pigs in the 0.5-mg level group was evident, however, only during "early" stages of the infection (until about day 3). Guinea pigs receiving high levels of dietary ascorbic acid were no more resistant at any time after infection, or with any challenge dose, than those receiving an intermediate dietary level. Although these data suggest that vitamin C may be involved in resistance to candidiasis, tissue levels of ascorbic acid do not change significantly with time after infection. These results indicate that low levels of dietary ascorbic acid increase susceptibility to candidiasis, yet high (or "megadose") levels of dietary vitamin C do not show any effect on resistance to this microorganism.

Isolation and characterization of amber mutations in gene dnaA of escherichia coli K-12.

Amber mutants with defects in the dnaA gene of Escherichia coli K-12 were isolated after localized mutagenesis of the tna-dnaA region of the chromosome. We isolated 36 mutants defective in the initiation of deoxyribonucleic acid replication as determined by their dependence upon integrative suppression by a P2 sig5 prophage. Three of the 36 mutants were shown to contain amber mutations through the use of a temperature-sensitive amber suppressor. These mutations, which mapped between gyrB and tna, were characterized genetically and biochemically as amber mutations in dnaA.