Novel protein-tyrosine kinase gene (hck) preferentially expressed in cells of hematopoietic origin

Transformation of chicken embryo fibroblast cells by avian retroviruses containing the human Fyn gene and its mutated genes

The transforming activity of the human fyn protein, p59fyn, which is a kinase of the src family, was investigated by testing the effect of recombinant avian retrovirus (Fyn virus) expressing p59fyn on chickens or cultured chicken embryo fibroblast (CEF) cells. The Fyn virus did not induce transformed foci. After several passages of the virus stock on CEF cells, however, a few foci were detected in the presence of dimethyl sulfoxide. Chickens inoculated with Fyn virus at the stage of 12-day-old embryos developed fibrosarcomas 3 to 6 weeks after hatching. The viruses obtained from these foci and from one of the tumor tissues showed high transforming activity in the presence of dimethyl sulfoxide, suggesting that these viruses carry spontaneous mutations of the fyn gene. Four fyn genes from CEF DNAs infected with transforming viruses were molecularly cloned, and their products were confirmed to possess transforming activity. DNA sequence analysis of the fyn genes showed that two of the four mutants have Thr instead of Ile at position 338 in the kinase domain. The other two mutants carry deletions of 78 and 108 base pairs, respectively, which result in complete loss of region C of SH2. The overall level of proteins containing phosphotyrosine was significantly higher in transformed cells than in normal CEF cells. Our data indicate that when expressed at high levels in a retrovirus, normal p59fyn cannot cause cellular transformation, but that mutant p59fyn with either a single amino acid substitution in the kinase domain or a deletion including region C produces a transforming protein, perhaps due to enhanced tyrosine kinase activity. This is the first observation that deletion of region C can unmask the potential transforming activity of a src family kinase.

A murine fer testis-specific transcript (ferT) encodes a truncated Fer protein

A cDNA for a potential tyrosine kinase-encoding mRNA was isolated from a mouse testis cDNA library. In a survey of eight mouse tissues, a transcript of 2.4 kilobases restricted to testis tissue was found. The mRNA encodes a 453-amino-acid protein of 51,383 daltons, the smallest tyrosine kinase protein ever described. RNA synthesized from the cDNA template directs the synthesis of a 51,000-Mr protein in a cell-free translation system. The carboxy-terminal 409 amino acids are 98 and 90% identical to the carboxy halves of the rat and human Fer proteins, respectively. This suggests that the cDNA represents an alternatively spliced testis-specific fer mRNA and is therefore termed by us ferT. On the basis of the appearance time of the fer mRNA in the testis of maturing neonatal mice, we speculate on the role played by this protein in the development of this organ.

A murine fer testis-specific transcript (ferT) encodes a truncated Fer protein

A cDNA for a potential tyrosine kinase-encoding mRNA was isolated from a mouse testis cDNA library. In a survey of eight mouse tissues, a transcript of 2.4 kilobases restricted to testis tissue was found. The mRNA encodes a 453-amino-acid protein of 51,383 daltons, the smallest tyrosine kinase protein ever described. RNA synthesized from the cDNA template directs the synthesis of a 51,000-Mr protein in a cell-free translation system. The carboxy-terminal 409 amino acids are 98 and 90% identical to the carboxy halves of the rat and human Fer proteins, respectively. This suggests that the cDNA represents an alternatively spliced testis-specific fer mRNA and is therefore termed by us ferT. On the basis of the appearance time of the fer mRNA in the testis of maturing neonatal mice, we speculate on the role played by this protein in the development of this organ.

Structure and expression of STK, a src-related gene in the simple metazoan Hydra attenuata

Both cDNA clones and a genomic DNA clone encoding a 509-amino-acid protein that is 64% similar to chicken pp60c-src were isolated from the simple metazoan Hydra attenuata. We have designated this gene STK, for src-type kinase. Features of the amino acid sequence of the protein encoded by the STK gene suggest that it is likely to be myristoylated and regulated by phosphorylation in a manner similar to that found for pp60c-src. The genomic sequence encoding the protein was found to be interrupted by at least two introns, one of which was located in a position identical to that of one of the introns in the chicken src gene. The STK gene was expressed during early development of H. attenuata and at high levels in the epithelial cells of adult polyps. Probing of Hydra proteins with an antibody to phosphotyrosine indicated that the major phosphotyrosine-containing protein in H. attenuata may be the STK protein itself. H. attenuata is the simplest organism from which a protein-tyrosine kinase gene has been isolated. The presence of such a gene in the evolutionarily ancient phylum Cnidaria suggests that protein-tyrosine kinase genes arose concomitantly with or shortly after the appearance of multicellular organisms.

Structure and expression of STK, a src-related gene in the simple metazoan Hydra attenuata

Both cDNA clones and a genomic DNA clone encoding a 509-amino-acid protein that is 64% similar to chicken pp60c-src were isolated from the simple metazoan Hydra attenuata. We have designated this gene STK, for src-type kinase. Features of the amino acid sequence of the protein encoded by the STK gene suggest that it is likely to be myristoylated and regulated by phosphorylation in a manner similar to that found for pp60c-src. The genomic sequence encoding the protein was found to be interrupted by at least two introns, one of which was located in a position identical to that of one of the introns in the chicken src gene. The STK gene was expressed during early development of H. attenuata and at high levels in the epithelial cells of adult polyps. Probing of Hydra proteins with an antibody to phosphotyrosine indicated that the major phosphotyrosine-containing protein in H. attenuata may be the STK protein itself. H. attenuata is the simplest organism from which a protein-tyrosine kinase gene has been isolated. The presence of such a gene in the evolutionarily ancient phylum Cnidaria suggests that protein-tyrosine kinase genes arose concomitantly with or shortly after the appearance of multicellular organisms.

Transformation of NIH 3T3 fibroblasts by an activated form of p59hck

Phosphorylation of a tyrosine residue near the carboxy terminus of src-family protein tyrosine kinases is believed to regulate the biological activity of these gene products. Conversion of this tyrosine in p59hck (Tyr-501) to a phenylalanine residue by using oligonucleotide-directed mutagenesis yielded a product (p59hckF501) with very potent transforming activity. Quantitative analysis by a soft-agar cloning assay revealed that p59hckF501 was more than 100-fold more effective than a closely related transforming element, p56lckF505, in colony formation. Cells bearing p59hckF501 had increased levels of protein phosphotyrosine. The ability of p59hckF501 to transform NIH 3T3 cells was abolished by a second mutation believed to destroy the ATP-binding domain.

Selective expression of a protein-tyrosine kinase, p56lyn, in hematopoietic cells and association with production of human T-cell lymphotropic virus type I

This paper reports the identification of the lyn gene product, a member of the src-related family of protein-tyrosine kinases, and its expression in hematopoietic cells. A lyn-specific sequence (Arg-25 to Ala-119 of the protein) was expressed in Escherichia coli as a fusion protein with beta-galactosidase. Antiserum raised against the fusion protein immunoprecipitated a 56-kDa protein from human B lymphocytes. Incubation of the immunoprecipitate with [gamma-32P]ATP resulted in the phosphorylation of this protein at tyrosine residues. Immunohistological and immunoblotting analyses showed that the lyn gene product was expressed in lymphatic tissues (spleen and tonsil) and in adult lung, which contains many macrophages. Furthermore, both the transcripts and the protein products of the lyn gene accumulated in macrophages/monocytes, platelets, and B lymphocytes but were not expressed appreciably in granulocytes, erythrocytes, or T lymphocytes, suggesting that lyn gene products function primarily in certain differentiated cells of lymphoid and myeloid lineages.

Transformation of NIH 3T3 fibroblasts by an activated form of p59hck

Phosphorylation of a tyrosine residue near the carboxy terminus of src-family protein tyrosine kinases is believed to regulate the biological activity of these gene products. Conversion of this tyrosine in p59hck (Tyr-501) to a phenylalanine residue by using oligonucleotide-directed mutagenesis yielded a product (p59hckF501) with very potent transforming activity. Quantitative analysis by a soft-agar cloning assay revealed that p59hckF501 was more than 100-fold more effective than a closely related transforming element, p56lckF505, in colony formation. Cells bearing p59hckF501 had increased levels of protein phosphotyrosine. The ability of p59hckF501 to transform NIH 3T3 cells was abolished by a second mutation believed to destroy the ATP-binding domain.

Tissue-specific expression and developmental regulation of the human fgr proto-oncogene

In this study, we show that c-fgr proto-oncogene expression is limited to normal peripheral blood granulocytes, monocytes, and alveolar macrophages, all of which contain 50 to 100 copies of c-fgr mRNA per cell. The c-fgr RNA molecules in these cells consisted of partially spliced transcripts containing intron 7 and completely spliced molecules capable of encoding the predicted p55 c-fgr protein. The splicing of intron 7 appeared to occur after the splicing of most of the other introns; partially spliced molecules containing intron 7 did not appear to be transported into the cytoplasm. Very low levels of fgr transcripts were also present in U937 promonocytic cells and increased in abundance with 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced differentiation. The level of fgr transcripts began to increase 2 to 4 h after TPA addition, peaked at 8 h, and subsequently declined. Since we found that the half-life of fgr mRNA was longer than 8 h, these changes are best explained by transient transcriptional activation of fgr during TPA-induced differentiation, although nuclear runoff experiments were not sensitive enough to detect this event. Cycloheximide also caused accumulation of c-fgr transcripts in U937 cells; no superinduction was observed when TPA and cycloheximide were added at the same time. Induction by either agent was blocked with actinomycin D. These results demonstrate that the c-fgr gene is expressed in a tissue- and development-specific fashion and suggest that constitutive expression of c-fgr in U937 cells is regulated by a labile transcriptional repressor.

Evolution, expression, and chromosomal location of a novel receptor tyrosine kinase gene, eph

Partial sequence analysis of the genomic eph locus revealed that the splicing points of kinase domain-encoding exons were completely distinct from those of the other protein tyrosine kinase members reported, suggesting that this is the earliest evolutionary split within this family. In Northern (RNA) blot analysis, the eph gene was expressed in liver, lung, kidney, and testis of rat, and screening of 25 human cancers of various cell types showed preferential expression in cells of epithelial origin. Overexpression of eph mRNA was found in a hepatoma and a lung cancer without gene amplification. Comparison of cDNA sequences derived from a normal liver and a hepatoma that overproduces eph mRNA demonstrated that two of them were completely identical throughout the transmembrane to the carboxy-terminal portions. Southern blot analysis of DNAs from human-mouse hybrid clones with an eph probe showed that this gene was present on human chromosome 7.

Structure of the murine lck gene and its rearrangement in a murine lymphoma cell line

The lck gene encodes a lymphocyte-specific protein-tyrosine kinase that is implicated in neoplastic transformation. We have determined the germ line organization of the murine lck gene and have isolated and characterized a rearranged lck allele in the murine lymphoma cell line LSTRA. The overall exon-intron organization of the normal lck gene is almost identical to that of avian c-src. In LSTRA DNA, an internally rearranged Moloney murine leukemia virus genome is interposed between two distinct promoters that normally generate lck transcripts differing only in 5' untranslated regions. The rearrangement appears to have been selected to permit splicing of transcripts that initiate from the Moloney virus promoter to an acceptor site located within the first exon 3' to the downstream promoter, thus generating an lck mRNA with a novel 5' untranslated region that may be more efficiently translated.

The carboxy-terminal sequence of p56lck can regulate p60c-src

A chimera containing the coding region for residues 1 to 516 of p60c-src and residues 495 to 509 (the carboxy terminus) of p56lck was constructed and expressed in mouse fibroblasts. The chimeric protein appeared to be phosphorylated and regulated in the same fashion as p60c-src.

Guanine nucleotides induce tyrosine phosphorylation and activation of the respiratory burst in neutrophils

Activation of the NADPH oxidase was examined in electrically permeabilized human neutrophils exposed to non-hydrolysable guanine nucleotides. Guanosine 5'-[gamma-thio]triphosphate (GTP[S]) induced a marked increase in the rate of O2 consumption, which was partially resistant to staurosporine, an inhibitor of protein kinase C, under conditions where the response to diacylglycerol was virtually abolished. The respiratory burst elicited by GTP[S] was dependent on the presence of ATP and Mg2+, suggesting involvement of phosphorylation reactions. Accordingly, phosphoprotein formation was greatly stimulated by the guanine nucleotide. The polypeptide phosphorylation pattern induced by GTP[S] was similar to, but not identical with, that observed with diacylglycerol, indicating the activation of kinases other than protein kinase C by the guanine nucleotide. The possible involvement of tyrosine kinases was assessed by immunoblotting using anti-phosphotyrosine antibodies. Treatment of electroporated cells with GTP[S] stimulated the accumulation of tyrosine-phosphorylated proteins. This effect was not induced by diacylglycerol, indicating that tyrosine phosphorylation is not secondary to stimulation of protein kinase C. The results indicate that, in neutrophils, activated G-proteins can stimulate tyrosine kinase and/or inhibit tyrosine phosphatase activity. Changes in the amounts of tyrosine-phosphorylated proteins may signal activation of the respiratory burst.

Tissue-specific expression and developmental regulation of the human fgr proto-oncogene

In this study, we show that c-fgr proto-oncogene expression is limited to normal peripheral blood granulocytes, monocytes, and alveolar macrophages, all of which contain 50 to 100 copies of c-fgr mRNA per cell. The c-fgr RNA molecules in these cells consisted of partially spliced transcripts containing intron 7 and completely spliced molecules capable of encoding the predicted p55 c-fgr protein. The splicing of intron 7 appeared to occur after the splicing of most of the other introns; partially spliced molecules containing intron 7 did not appear to be transported into the cytoplasm. Very low levels of fgr transcripts were also present in U937 promonocytic cells and increased in abundance with 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced differentiation. The level of fgr transcripts began to increase 2 to 4 h after TPA addition, peaked at 8 h, and subsequently declined. Since we found that the half-life of fgr mRNA was longer than 8 h, these changes are best explained by transient transcriptional activation of fgr during TPA-induced differentiation, although nuclear runoff experiments were not sensitive enough to detect this event. Cycloheximide also caused accumulation of c-fgr transcripts in U937 cells; no superinduction was observed when TPA and cycloheximide were added at the same time. Induction by either agent was blocked with actinomycin D. These results demonstrate that the c-fgr gene is expressed in a tissue- and development-specific fashion and suggest that constitutive expression of c-fgr in U937 cells is regulated by a labile transcriptional repressor.

The map of chromosome 20

The number of gene assignments to human chromosome 20 has increased slowly until recently. Only seven genes and one fragile site were confirmed assignments to chromosome 20 at the Ninth Human Gene Mapping Workshop in September 1987 (HGM9). One fragile site, 13 additional genes, and 10 DNA sequences that identify restriction fragment length polymorphisms (RFLPs), however, were provisionally added to the map at HGM9. Five mutated genes on chromosome 20 have a relation to disease: a mutation in the adenosine deaminase gene results in a deficiency of the enzyme and severe combined immune deficiency; mutations in the gene for the growth hormone releasing factor result in some forms of dwarfism; mutations in the closely linked genes for the hormones arginine vasopressin and oxytocin and their neurophysins are probably responsible for some diabetes insipidus; and mutations in the gene that regulates both alpha-neuraminidase and beta-galactosidase activities determine galactosialidosis. The gene for the prion protein is on chromosome 20; it is related to the infectious agent of kuru, Creutzfeld-Jacob disease, and Gertsmann-Straussler syndrome, although the nature of the relationship is not completely understood. Two genes that code for tyrosine kinases are on the chromosome, SRC1 the proto-oncogene and a gene (HCK) coding for haemopoietic kinase (an src-like kinase), but no direct relation to cancer has been shown for either of these kinases. The significance of non-random loss of chromosome 20 in the malignant diseases non-lymphocytic leukaemia and polycythaemia vera is not understood. Twenty-four additional loci are assigned to the chromosome: five genes that code for binding proteins, one for a light chain of ferritin, genes for three enzymes (inosine triphosphatase, s-adenosylhomocysteine hydrolase, and sterol delta 24-reductase), one for each of a secretory protein and an opiate neuropeptide, a cell surface antigen, two fragile sites, and 10 DNA sequences (one satellite and nine unique) that detect RFLPs.

Augmented expression of a myeloid-specific protein tyrosine kinase gene (hck) after macrophage activation

Protein tyrosine kinases are thought to participate in signal transduction pathways in a variety of cell types. Recent studies have identified a new src family protein tyrosine kinase (hck) that is preferentially expressed in myeloid cells. To examine the hypothesis that this kinase may regulate myeloid cell activity, antisera were generated that define the 59-kD product of the hck gene. Functional activation of human cultured macrophages with LPS augmented the expression of hck transcripts and of p59hck, but decreased the level of transcripts encoded by the closely related c-fgr protooncogene. Thus these two structurally similar src family kinases almost certainly subserve distinct functions. Reasoning from the known properties of the src family protein tyrosine kinases, it is likely that the products of these two protooncogenes assist in regulating the behavior of activated phagocytes.

Evolution, expression, and chromosomal location of a novel receptor tyrosine kinase gene, eph

Partial sequence analysis of the genomic eph locus revealed that the splicing points of kinase domain-encoding exons were completely distinct from those of the other protein tyrosine kinase members reported, suggesting that this is the earliest evolutionary split within this family. In Northern (RNA) blot analysis, the eph gene was expressed in liver, lung, kidney, and testis of rat, and screening of 25 human cancers of various cell types showed preferential expression in cells of epithelial origin. Overexpression of eph mRNA was found in a hepatoma and a lung cancer without gene amplification. Comparison of cDNA sequences derived from a normal liver and a hepatoma that overproduces eph mRNA demonstrated that two of them were completely identical throughout the transmembrane to the carboxy-terminal portions. Southern blot analysis of DNAs from human-mouse hybrid clones with an eph probe showed that this gene was present on human chromosome 7.

Mapping by in vitro constructs of the P100gag-mil region, accounting for induction of chicken neuroretina cell proliferation

The v-mil oncogene of the avian retrovirus MH2 is expressed as a fusion protein with viral gag determinants in infected cells. This P100gag-mil protein accounts for the proliferation of chicken embryo neuroretina cells (CNR) induced by MH2 in vitro. We constructed a series of mutants by in-frame deletions in different parts of the gag and mil domains and tested their ability to induce CNR growth. We show that gag sequences, as well as 200-base-pair 5' mil sequences, were not required to induce such a proliferation. However, gag sequences seem to contribute to a full proliferation of growing CNR. In contrast, deletions in the kinase domain abolish this induction. In particular, by deleting only 9 nucleotides localized around the unique SphI site of v-mil, we produced a totally inactive mutant (BalSp). This mutant directs the synthesis of a v-mil protein lacking the dipeptide Tyr-Leu, which is conserved in almost all the members of the large protein kinase family, and a histidine residue highly conserved in Ser-Thr protein kinase members.

The carboxy-terminal sequence of p56lck can regulate p60c-src

A chimera containing the coding region for residues 1 to 516 of p60c-src and residues 495 to 509 (the carboxy terminus) of p56lck was constructed and expressed in mouse fibroblasts. The chimeric protein appeared to be phosphorylated and regulated in the same fashion as p60c-src.

Structure of the murine lck gene and its rearrangement in a murine lymphoma cell line

The lck gene encodes a lymphocyte-specific protein-tyrosine kinase that is implicated in neoplastic transformation. We have determined the germ line organization of the murine lck gene and have isolated and characterized a rearranged lck allele in the murine lymphoma cell line LSTRA. The overall exon-intron organization of the normal lck gene is almost identical to that of avian c-src. In LSTRA DNA, an internally rearranged Moloney murine leukemia virus genome is interposed between two distinct promoters that normally generate lck transcripts differing only in 5' untranslated regions. The rearrangement appears to have been selected to permit splicing of transcripts that initiate from the Moloney virus promoter to an acceptor site located within the first exon 3' to the downstream promoter, thus generating an lck mRNA with a novel 5' untranslated region that may be more efficiently translated.

Acquisition of transforming properties by FYN, a normal SRC-related human gene

The SRC gene is the prototype for a family of closely related genes whose products have protein-tyrosine kinase activity. We recently described another member of this family, designated FYN, whose cDNA was isolated from normal human fibroblasts. To examine the possible role of FYN as an oncogene, we investigated the effects of FYN overexpression on NIH 3T3 cells. Our findings demonstrate that normal FYN overexpression induces morphologic transformation and anchorage-independent growth. In addition, at relatively low frequency, FYN acquired properties of a dominant-acting oncogene capable of inducing the fully tumorigenic phenotype. Genetic changes associated with the conversion of normal FYN cDNA into a transforming gene with high focus-forming activity were localized to the carboxyl-terminal region of its translational product.

Mutation of a site of tyrosine phosphorylation in the lymphocyte-specific tyrosine protein kinase, p56lck, reveals its oncogenic potential in fibroblasts

p56lck, a cellular tyrosine protein kinase (EC 2.7.1.112) of the src family, is expressed in essentially all T cells and in some B cells. Expression in nonlymphoid cells is observed only rarely. We have found that mutation of a carboxyl-terminal phosphorylation site, tyrosine-505, reveals an oncogenic activity of this protein. Infection of fibroblasts with a retrovirus encoding wild-type p56lck is without consequence. In contrast, infection with a virus encoding the mutant protein leads to greatly increased phosphorylation of cellular proteins on tyrosine, morphological transformation, and anchorage-independent growth. This suggests that the tyrosine protein kinase activity and the oncogenic potential of p56lck are normally suppressed in vivo by phosphorylation of tyrosine-505. Since similar results were obtained previously with an analogous mutant of c-src, our results suggest that the protein kinase activity of all members of the src family of cytoplasmic tyrosine protein kinases will prove to be regulated by tyrosine phosphorylation at a conserved residue near the carboxyl terminus. Because p56lck is normally expressed only in lymphoid cells, it was possible that p56lck would be without effect in other tissues. The transformation of fibroblasts by mutant p56lck shows that this lymphoid protein can interact productively with nonlymphoid polypeptide substrates.

Nucleotide sequence and chromosomal mapping of the human c-yes-2 gene

We molecularly characterized the second gene, c-yes-2, of two copies of yes-related genes which we previously found to contain in the human genome. First, nucleotide sequence analysis revealed that the c-yes-2 gene is a pseudogene of the c-yes-1 gene. Second, by using two independent methods, hybridization of both DNAs from sorted chromosomes and metaphase spreads with c-yes-2 DNA, we assigned the c-yes-2 gene to chromosome 22q11.2. This chromosomal localization is consistent with that given in our previous report. The failure of proper mapping in our experiment might have been caused by instability of hybrid cell clones.

Neoplastic transformation induced by an activated lymphocyte-specific protein tyrosine kinase (pp56lck)

The lck proto-oncogene encodes a lymphocyte-specific member of the src family of protein tyrosine kinases. Here we demonstrate that pp56lck is phosphorylated in vivo at a carboxy-terminal tyrosine residue (Tyr-505) analogous to Tyr-527 of pp60c-src. Substitution of phenylalanine for tyrosine at this position resulted in increased phosphorylation of a second tyrosine residue (Tyr-394) and was associated with an increase in apparent kinase activity. In addition, this single point mutation unmasked the oncogenic potential of pp56lck in NIH 3T3 cell transformation assays. Viewed in the context of similar results obtained with pp60c-src, it is likely that the enzymatic activity and transforming ability of all src-family protein tyrosine kinases can be regulated by carboxy-terminal tyrosine phosphorylation. We further demonstrate that overexpression of pp56lck in the murine T-cell lymphoma LSTRA as a result of a retroviral insertion event produces a kinase protein that despite wild-type primary structure is nevertheless hypophosphorylated at Tyr-505. Thus, control of normal growth in this lymphoid cell line may have been abrogated through acquisition of a posttranslationally activated version of pp56lck.

Neoplastic transformation induced by an activated lymphocyte-specific protein tyrosine kinase (pp56lck)

The lck proto-oncogene encodes a lymphocyte-specific member of the src family of protein tyrosine kinases. Here we demonstrate that pp56lck is phosphorylated in vivo at a carboxy-terminal tyrosine residue (Tyr-505) analogous to Tyr-527 of pp60c-src. Substitution of phenylalanine for tyrosine at this position resulted in increased phosphorylation of a second tyrosine residue (Tyr-394) and was associated with an increase in apparent kinase activity. In addition, this single point mutation unmasked the oncogenic potential of pp56lck in NIH 3T3 cell transformation assays. Viewed in the context of similar results obtained with pp60c-src, it is likely that the enzymatic activity and transforming ability of all src-family protein tyrosine kinases can be regulated by carboxy-terminal tyrosine phosphorylation. We further demonstrate that overexpression of pp56lck in the murine T-cell lymphoma LSTRA as a result of a retroviral insertion event produces a kinase protein that despite wild-type primary structure is nevertheless hypophosphorylated at Tyr-505. Thus, control of normal growth in this lymphoid cell line may have been abrogated through acquisition of a posttranslationally activated version of pp56lck.

Additional member of the protein-tyrosine kinase family: the src- and lck-related protooncogene c-tkl

We report the isolation and nucleotide sequence of a 3.7-kilobase (kb) cDNA clone from chicken spleen corresponding to a previously undescribed member of the src family of protooncogenes. It encodes a protein with a C-terminal domain related to the src family of protein-tyrosine kinases (EC 2.7.1.112) and, among these, has most significant homology to the lck gene isolated from a murine leukemia virus-induced thymoma cell line. The gene is therefore referred to as c-tkl for cellular tyrosine kinase related to lck. Analysis of genomic DNA reveals that c-tkl is a chromosomal locus distinct from c-src and c-lck. Furthermore, the size of c-tkl mRNA as well as its pattern of expression indicates that it is not the chicken homologue of lck but a different gene. A 3.8-kb transcript of the c-tkl gene, identical to the size determined for c-src mRNA, was observed in cultured chicken embryo fibroblasts and in chicken spleen and brain. In contrast, detection of a definite c-src mRNA signal with mRNA from spleen was not possible under the hybridization conditions employed when the 5' end of v-src was used as the probe, and none of the 11 clones obtained from the cDNA library corresponded to a c-src transcript. Thus previous studies of c-src mRNA expression in spleen may have actually detected c-tkl transcripts.

Isolation and sequence of a cDNA corresponding to a src-related gene expressed in murine hemopoietic cells

We have isolated a murine cDNA that shares extensive homology with genes encoding the src (Rous sarcoma virus oncogene)-related family of protein-tyrosine kinases. The cDNA includes an open reading frame of 1509 base pairs, and conceptual translation predicts a protein of 56 kDa. Blot-hybridization analysis indicates that this src-related gene is expressed in normal macrophages and in cell lines representing both the myeloid and lymphoid B-cell lineages and, accordingly, is designated "bmk" (B cell/myeloid kinase). In addition, bmk mRNA levels increase following the induced differentiation of the murine myelomonocytic leukemic cell line WEHI-3B.

Identification of a human gene (HCK) that encodes a protein-tyrosine kinase and is expressed in hemopoietic cells

We have isolated cDNAs representing a previously unrecognized human gene that apparently encodes a protein-tyrosine kinase. We have designated the gene as HCK (hemopoietic cell kinase) because its expression is prominent in the lymphoid and myeloid lineages of hemopoiesis. Expression in granulocytic and monocytic leukemia cells increases after the cells have been induced to differentiate. The 57-kilodalton protein encoded by HCK resembles the product of the proto-oncogene c-src and is therefore likely to be a peripheral membrane protein. HCK is located on human chromosome 20 at bands q11-12, a region that is affected by interstitial deletions in some acute myeloid leukemias and myeloproliferative disorders. Our findings add to the diversity of protein-tyrosine kinases that may serve specialized functions in hemopoietic cells, and they raise the possibility that damage to HCK may contribute to the pathogenesis of some human leukemias.

Identification of a human gene (HCK) that encodes a protein-tyrosine kinase and is expressed in hemopoietic cells

We have isolated cDNAs representing a previously unrecognized human gene that apparently encodes a protein-tyrosine kinase. We have designated the gene as HCK (hemopoietic cell kinase) because its expression is prominent in the lymphoid and myeloid lineages of hemopoiesis. Expression in granulocytic and monocytic leukemia cells increases after the cells have been induced to differentiate. The 57-kilodalton protein encoded by HCK resembles the product of the proto-oncogene c-src and is therefore likely to be a peripheral membrane protein. HCK is located on human chromosome 20 at bands q11-12, a region that is affected by interstitial deletions in some acute myeloid leukemias and myeloproliferative disorders. Our findings add to the diversity of protein-tyrosine kinases that may serve specialized functions in hemopoietic cells, and they raise the possibility that damage to HCK may contribute to the pathogenesis of some human leukemias.