Comparison of capillary zone and immunosubtraction with agarose gel and immunofixation electrophoresis for detecting and identifying monoclonal gammopathies

Capillary zone electrophoresis (CZE) and immuno-subtraction electrophoresis (ISE) were evaluated for ability to detect and immunotype monoclonal proteins, compared with agarose gel electrophoresis (AGE) and immunofixation electrophoresis (IFE), respectively. Six hundred seventeen serum samples were analyzed with CZE and AGE to determine sensitivity and specificity in detecting IFE-confirmed monoclonal gammopathies. Both techniques detected all monoclonal spikes due to IgM (n = 8), IgG (n = 38), and free light chains (n = 3). Agarose gel electrophoresis, however, detected only 11 of 14 (79%) IgA monoclonal spikes detected with CZE. In a second study, 78 serum samples, 48 of which had a monoclonal gammopathy confirmed with IFE, were evaluated with ISE. Only 60% to 75% of the monoclonal gammopathies were correctly immunotyped with ISE by 4 readers blinded to the IFE immunotype. Thus CZE was more sensitive than AGE in detecting low concentrations of monoclonal proteins, but ISE is less accurate than IFE in determining the immunotype of the monoclonal gammopathy.

Induction of DAP12 phosphorylation, calcium mobilization, and cytokine secretion by Ly49H

The ability of several Ly49 family members to inhibit natural killer (NK) cell functions through recruitment of SHP-1 phosphatase has been reported. In contrast, the mechanisms underlying the activating signal generated by Ly49D are poorly understood. A homodimeric phosphoprotein (pp16) that physically and functionally associates with Ly49D has been described. In this study, a rabbit anti-mouse pp16 antiserum was generated and used to demonstrate that pp16 corresponds to the recently described DAP12 molecule. In addition, we show that a second Ly49 family member that lacks an immunoreceptor tyrosine-based inhibitory motif and contains a charged residue in the transmembrane domain, Ly49H, also associates with DAP12. Furthermore, we show that engagement of the Ly49H/DAP12 complex results in phosphorylation of DAP12, intracellular calcium mobilization, and tumor necrosis factor secretion in transfected cells. These results thus provide evidence that Ly49H is an activating receptor that associates with DAP12, previously described as a pp16 component of the Ly49D receptor complex.

Role of a STAT binding site in the regulation of the human perforin promoter

The pore-forming protein perforin is preferentially expressed in NK and cytotoxic T cells. To investigate the molecular regulation of human perforin gene transcription, the activity of the human perforin promoter was analyzed in human NK and T cell lines using various promoter fragments linked to a luciferase reporter gene. A core promoter was identified within 55 bp upstream of the transcription start site. This promoter region contains a guanine/cytosine box and has basal activity in YT, Kit225-k6, and Jurkat cells. A strong enhancer activity was identified between positions -1136 and -1076, a region that includes a STAT-like element. This enhancer region was active in YT cells, which have constitutive perforin expression and activated STAT3 protein, but not in Kit225-k6 or Jurkat cells, which do not have constitutive perforin expression. Mutation of the STAT binding site resulted in a dramatic down-regulation of promoter activity. Electrophoretic mobility shift assays, using a probe containing the STAT element of the perforin promoter, indicated that this element can bind STAT3 from YT cells. Moreover, the STAT element was shown to bind STAT5a/b induced by IL-2 as well as STAT1alpha induced by IL-6 in human NK cells. Together, these results suggest that STAT proteins play a key role in perforin gene transcription and provide a model by which cytokines can regulate perforin gene expression.

Role of a STAT Binding Site in the Regulation of the Human Perforin Promoter

The pore-forming protein perforin is preferentially expressed in NK and cytotoxic T cells. To investigate the molecular regulation of human perforin gene transcription, the activity of the human perforin promoter was analyzed in human NK and T cell lines using various promoter fragments linked to a luciferase reporter gene. A core promoter was identified within 55 bp upstream of the transcription start site. This promoter region contains a guanine/cytosine box and has basal activity in YT, Kit225-k6, and Jurkat cells. A strong enhancer activity was identified between positions −1136 and −1076, a region that includes a STAT-like element. This enhancer region was active in YT cells, which have constitutive perforin expression and activated STAT3 protein, but not in Kit225-k6 or Jurkat cells, which do not have constitutive perforin expression. Mutation of the STAT binding site resulted in a dramatic down-regulation of promoter activity. Electrophoretic mobility shift assays, using a probe containing the STAT element of the perforin promoter, indicated that this element can bind STAT3 from YT cells. Moreover, the STAT element was shown to bind STAT5a/b induced by IL-2 as well as STAT1α induced by IL-6 in human NK cells. Together, these results suggest that STAT proteins play a key role in perforin gene transcription and provide a model by which cytokines can regulate perforin gene expression.

DAP12-mediated signal transduction in natural killer cells. A dominant role for the Syk protein-tyrosine kinase

The murine Ly49 family contains nine genes in two subgroups: the inhibitory receptors (Ly49A, B, C, E, F, G2, and I) and the noninhibitory receptors (Ly49D and H). Unlike their inhibitory counterparts, Ly49D and H do not contain immunoreceptor tyrosine-based inhibitory motifs but associate with a recently described co-receptor, DAP12, to transmit positive signals to natural killer (NK) cells. DAP12 is also expressed in myeloid cells, but the receptors coupled to it there are unknown. Here we document the signaling pathways of the Ly49D/DAP12 complex in NK cells. We show that ligation of Ly49D results in 1) tyrosine phosphorylation of several substrates, including phospholipase Cgamma1, Cbl, and p44/p42 mitogen-activated protein kinase, and 2) calcium mobilization. Moreover, we demonstrate that although human DAP12 reportedly binds the SH2 domains of both Syk and Zap-70, ligation of Ly49D leads to activation of Syk but not Zap-70. Consistent with this observation, Ly49D/DAP12-mediated calcium mobilization is blocked by dominant negative Syk but not by catalytically inactive Zap-70. These data demonstrate the dependence of DAP12-coupled receptors on Syk and suggest that the outcome of Ly49D/DAP12 engagement will be regulated by Cbl and culminate in the activation of transcription factors.

Phenotypic and functional characterization of a panel of cytotoxic murine NK cell clones that are heterogeneous in their enhancement of Ig secretion in vitro

NK cells not only function as cytotoxic effector cells, but also have immunoregulatory roles including the enhancement of Ig secretion. To have a stable and uniform population of NK cells to study their role in Ig secretion, we generated murine NK clones. Thus, culture of splenocytes from mice that were homozygous for a mutation in the p53 tumor suppressor gene (p53-KO) with IL-2 and poly(IC) resulted in a long-term NK line, from which four stable clones were derived. This approach also yielded a long-term NK line from splenocytes of normal C57BL/6 mice. Identification of the clones as members of the NK lineage was based on large granular morphology, expression of NK-TR and absence of TCR gene rearrangement. Flow cytometry revealed that all clones expressed IL-2R alpha and beta, chains and B220, but no CD3, NK1.1, DX5 or Ly-49. RT-PCR analysis showed heterogeneity in NK1.1 gene expression, and demonstrated expression of perforin and several granzymes in all clones. Three out of four clones lysed YAC-1, but not P815 target cells, corresponding to a pattern of NK specificity. All NK clones enhanced Ig secretion in an in vitro model for T cell-independent type 2 antigens, albeit to varying degrees. We found no correlation between the degree of helper activity of the NK clones and the level of their cytotoxic activity on YAC-1 targets. Thus, we established murine NK clones, and show that they mediate both cytotoxicity and enhancement of Ig secretion.

Characterization of an associated 16-kDa tyrosine phosphoprotein required for Ly-49D signal transduction

Ly-49D is an activating receptor on NK cells that does not become tyrosine phosphorylated upon activation. This report demonstrates that immunoprecipitation of Ly-49D, following pervanadate treatment or specific Ab cross-linking, coprecipitates a 16-kDa tyrosine-phosphorylated protein (pp16). Immunoblotting experiments and data from TCR-zeta/Fc epsilonRIgamma double knockout mice confirm that pp16 is not TCR-zeta, TCR-eta, or Fc epsilonRIgamma. Association of pp16 with Ly-49D involves a transmembrane arginine since mutation to leucine (Ly-49D[R54L]) abolishes association with pp16 in transfected P815 cells. In addition, Ly-49D(R54L) transfectants fail to mediate Ca2+ mobilization following Ab cross-linking. Therefore, signaling through Ly49D on NK cells depends on association with a distinct tyrosine phosphoprotein (pp16) in a manner analogous to that of TCR and FcR. Expression of this novel signaling peptide in both the NK and myeloid lineages indicates that pp16 is likely involved in the signal transduction cascade of additional receptor families.

Cutting Edge: Characterization of an Associated 16-kDa Tyrosine Phosphoprotein Required for Ly-49D Signal Transduction

Ly-49D is an activating receptor on NK cells that does not become tyrosine phosphorylated upon activation. This report demonstrates that immunoprecipitation of Ly-49D, following pervanadate treatment or specific Ab cross-linking, coprecipitates a 16-kDa tyrosine-phosphorylated protein (pp16). Immunoblotting experiments and data from TCR-ζ/FcεRIγ double knockout mice confirm that pp16 is not TCR-ζ, TCR-η, or FcεRIγ. Association of pp16 with Ly-49D involves a transmembrane arginine since mutation to leucine (Ly-49DR54L) abolishes association with pp16 in transfected P815 cells. In addition, Ly-49DR54L transfectants fail to mediate Ca2+ mobilization following Ab cross-linking. Therefore, signaling through Ly-49D on NK cells depends on association with a distinct tyrosine phosphoprotein (pp16) in a manner analogous to that of TCR and FcR. Expression of this novel signaling peptide in both the NK and myeloid lineages indicates that pp16 is likely involved in the signal transduction cascade of additional receptor families.

Discoordinate surface expression of IFN-gamma-induced HLA class II proteins in nonprofessional antigen-presenting cells with absence of DM and class II colocalization

We compared HLA class II expression in a human melanoma line (a nonprofessional APC), induced by IFN-gamma or by stable transfection with CIITA, with constitutive class II expression in an EBV-transformed B lymphoblastoid cell line (a professional APC) from the same donor. IFN-gamma-induced and CIITA-transfected melanoma cells expressed DR, DP, and DQ at levels similar to those expressed by the professional APC; however, DP and DQ proteins and DM-dependent DR epitopes were delayed in appearing on the cell surface when induced by IFN-gamma. The delay in cell surface expression of some IFN-gamma-induced class II epitopes was observed even though Northern blots demonstrated class II and DM genes to be coordinately transcribed and their mRNA levels to be equivalent to that in B lymphoblastoid cells. Confocal microscopy suggests that discoordinate cell surface expression of class II results from different intracellular trafficking for IFN-gamma-induced class II proteins in the melanoma line compared with that in professional APCs. Specifically, although DR and DM proteins were present 2 days after IFN-gamma induction, colocalization of DR and DM proteins intracellularly was not apparent in cells at any time after induction. Failure of DR and DM proteins to colocalize suggests that IFN-gamma-induced cells lack an intracellular MIIC-like compartment. The absence of a compartment containing DR and DM to facilitate interaction between the two proteins may account for the delayed surface expression of class II epitopes whose formation requires both class II and DM.

Differential tyrosine phosphorylation of inhibitory versus activating Ly-49 receptor proteins and their recruitment of SHP-1 phosphatase

Killer cell inhibitory receptors represent a family of p58/70-Ig-like proteins expressed on the surface of human NK cells. Engagement of class I MHC by killer cell inhibitory receptors turns off the lytic machinery of NK cells. This receptor/ligand interaction results in phosphorylation of intracellular tyrosine residues of p58/70 proteins. Murine NK cells express surface receptors of an unrelated family of type II lectin-like proteins, Ly-49, that have similar functions. Ly-49A, -C, and -G2 represent murine inhibitory receptors. However, Ly-49D functions as an activation receptor on the surface of NK cells. This dichotomy of function between Ly-49 family members suggested different signaling events upon receptor/ligand interaction. Here we demonstrate that: 1) in transfected Cos7 and murine NK cells, Ly-49A, -C, and -G2 are phosphorylated following pervanadate stimulation, whereas Ly-49D is not; 2) mAb-induced receptor ligation mediates tyrosine phosphorylation of Ly-49A and -G2, but not Ly-49D; 3) SHP-1 coprecipitates with Ly-49A and -G2 following receptor phosphorylation; and 4) tyrosine phosphorylation of Ly-49 inhibitory receptors depends on tyrosine residues restricted to the immunoreceptor tyrosine-based inhibitory motif. Our data further support the involvement of immunoreceptor tyrosine-based inhibitory motifs as crucial sequences regulating receptor-mediated inhibitory functions in NK cells.

Differential tyrosine phosphorylation of inhibitory versus activating Ly-49 receptor proteins and their recruitment of SHP-1 phosphatase

Killer cell inhibitory receptors represent a family of p58/70-Ig-like proteins expressed on the surface of human NK cells. Engagement of class I MHC by killer cell inhibitory receptors turns off the lytic machinery of NK cells. This receptor/ligand interaction results in phosphorylation of intracellular tyrosine residues of p58/70 proteins. Murine NK cells express surface receptors of an unrelated family of type II lectin-like proteins, Ly-49, that have similar functions. Ly-49A, -C, and -G2 represent murine inhibitory receptors. However, Ly-49D functions as an activation receptor on the surface of NK cells. This dichotomy of function between Ly-49 family members suggested different signaling events upon receptor/ligand interaction. Here we demonstrate that: 1) in transfected Cos7 and murine NK cells, Ly-49A, -C, and -G2 are phosphorylated following pervanadate stimulation, whereas Ly-49D is not; 2) mAb-induced receptor ligation mediates tyrosine phosphorylation of Ly-49A and -G2, but not Ly-49D; 3) SHP-1 coprecipitates with Ly-49A and -G2 following receptor phosphorylation; and 4) tyrosine phosphorylation of Ly-49 inhibitory receptors depends on tyrosine residues restricted to the immunoreceptor tyrosine-based inhibitory motif. Our data further support the involvement of immunoreceptor tyrosine-based inhibitory motifs as crucial sequences regulating receptor-mediated inhibitory functions in NK cells.

Characterization of the mouse Nktr gene and promoter

We have cloned and determined the structure of the 5' region of the mouse Nktr gene located on the distal end of mouse chromosome 9. This gene encodes an NK-cell-specific 150-kDa protein (NK-TR) homologous to cyclophilin, Nopp140, and SR-containing proteins. NK-TR expression is important for maintaining the lytic activity of natural killer cells. The region of the Nktr gene cloned in this study spans 25 kb and contains the promoter, eight exons, and a single alternative exon. The boundaries of exons 6-8 and the alternate splicing events in this region are identical to those previously described for the human NKTR gene. The Nktr promoter region has features that are typical of a housekeeping gene, including high G + C content, high frequency of CpG dinucleotides, and a lack of canonical TATAA and CCAAT boxes. The activity of Nktr promoter/beta-gal reporter constructs was equivalent in lymphocyte and fibroblast cell lines, suggesting that NK-TR protein expression is regulated by posttranscriptional mechanisms. In support of this hypothesis, two levels of splicing control have been identified within the Nktr gene. A 10-kb intron was found to remain in mRNAs produced in bone marrow, and an alternative exon capable of interrupting the Nktr open reading frame was found in immature NK cells. A conserved intronic sequence has been identified that may be important for the regulation of the Nktr gene by pre-mRNA splicing.

Selective inhibition of human and mouse natural killer tumor recognition using retroviral antisense in primary natural killer cells: involvement with MHC class I killer cell inhibitory receptors

The natural killer tumor recognition (NK-TR) protein has been shown to be a necessary component for the killing of NK-sensitive and virus-infected targets by the rat RNK-16 cell line. Class I-recognizing killer cell inhibitory receptors (KIR) have been found in the human (p58; NKAT family) and mouse (Ly-49 family). The principal functional characteristic of these receptors is their ability to block NK cell lysis by recognition of selected class I molecules on target cells. In the present study, we examined whether abrogation of NK-TR expression by retroviral infection of primary human or mouse NK cells with virus-producing antisense NK-TR also would demonstrate loss of non-MHC-restricted killing and whether the NK-TR was associated with KIR function in humans or with Ly-49 in the mouse. Using short term culture of fresh human or mouse NK cells, antisense NK-TR-treated NK cells demonstrated strong selective reduction of NK cytotoxicity. NK-TR was necessary for lytic activity even when KIR function was blocked by Ab in experiments involving NK3.3 lysis of HLA.cw3-expressing targets or killing of Dd targets by Ly-49A+ or Ly-49G2+ mouse NK cells. These studies extend our previous studies in rat NK cell lines to demonstrate that primary mouse and human NK cells require NK-TR for non-MHC-restricted lysis of tumor and virus-infected targets. In addition, the reversal of KIR or Ly-49 inhibition of NK cell lysis requires NK-TR expression for cellular killing in both human and mouse.

Selective inhibition of human and mouse natural killer tumor recognition using retroviral antisense in primary natural killer cells: involvement with MHC class I killer cell inhibitory receptors

The natural killer tumor recognition (NK-TR) protein has been shown to be a necessary component for the killing of NK-sensitive and virus-infected targets by the rat RNK-16 cell line. Class I-recognizing killer cell inhibitory receptors (KIR) have been found in the human (p58; NKAT family) and mouse (Ly-49 family). The principal functional characteristic of these receptors is their ability to block NK cell lysis by recognition of selected class I molecules on target cells. In the present study, we examined whether abrogation of NK-TR expression by retroviral infection of primary human or mouse NK cells with virus-producing antisense NK-TR also would demonstrate loss of non-MHC-restricted killing and whether the NK-TR was associated with KIR function in humans or with Ly-49 in the mouse. Using short term culture of fresh human or mouse NK cells, antisense NK-TR-treated NK cells demonstrated strong selective reduction of NK cytotoxicity. NK-TR was necessary for lytic activity even when KIR function was blocked by Ab in experiments involving NK3.3 lysis of HLA.cw3-expressing targets or killing of Dd targets by Ly-49A+ or Ly-49G2+ mouse NK cells. These studies extend our previous studies in rat NK cell lines to demonstrate that primary mouse and human NK cells require NK-TR for non-MHC-restricted lysis of tumor and virus-infected targets. In addition, the reversal of KIR or Ly-49 inhibition of NK cell lysis requires NK-TR expression for cellular killing in both human and mouse.

The Ly-49D receptor activates murine natural killer cells

Proteins encoded by members of the Ly-49 gene family are predominantly expressed on murine natural killer (NK) cells. Several members of this gene family have been demonstrated to inhibit NK cell lysis upon recognizing their class I ligands on target cells. In this report, we present data supporting that not all Ly-49 proteins inhibit NK cell function. Our laboratory has generated and characterized a monoclonal antibody (mAb) (12A8) that can be used to recognize the Ly-49D subset of murine NK cells. Transfection of Cos-7 cells with known members of the Ly-49 gene family revealed that 12A8 recognizes Ly-49D, but also cross-reacts with the Ly-49A protein on B6 NK cells. In addition, 12A8 demonstrates reactivity by both immuno-precipitation and two-color flow cytometry analysis with an NK cell subset that is distinct from those expressing Ly-49A, C, or G2. An Ly-49D+ subset of NK cells that did not express Ly-49A, C, and G2 was isolated and examined for their functional capabilities. Tumor targets and concanovalin A (ConA) lymphoblasts from a variety of H2 haplotypes were examined for their susceptibility to lysis by Ly-49D+ NK cells. None of the major histocompatibility complex class I-bearing targets inhibited lysis of Ly-49D+ NK cells. More importantly, we demonstrate that the addition of mAb 12A8 to Ly-49D+ NK cells can augment lysis of Fc gamma R+ target cells in a reverse antibody-dependent cellular cytotoxicity-type assay and induces apoptosis in Ly-49D+ NK cells. Furthermore, the cytoplasmic domain of Ly-49D does not contain the V/Ix-YxxL immunoreceptor tyrosine-based inhibitory motif found in Ly-49A, C, or G2 that has been characterized in the human p58 killer inhibitory receptors. Therefore, Ly-49D is the first member of the Ly-49 family characterized as transmitting positive signals to NK cells, rather than inhibiting NK cell function.

RS cyclophilins: identification of an NK-TR1-related cyclophilin

We report the isolation of a large cyclophilin protein containing RS (arginine-serine) repeats from a yeast two-hybrid screen using ClK (CDC28/cdc2-like kinase) as a probe. This Clk associating RS-cyclophilin (CARS-Cyp) possesses 39% homology to the NK-TR1 (natural killer tumor recognition protein-1) we have previously characterized (Anderson et al. (1993) Proc. Natl. Acad. Sci. USA 90 (1993) 542-546). CARS-Cyp is expressed in a variety of tissues and cell types, and codes for a protein with a predicted mass of 89 kDa containing a cyclophilin-related domain, two Nopp140 (nucleolar phosphoprotein of 140 kDa)-related domains, and a large RS domain. The RS-cyclophilins, a novel class of proteins, may play an important role in the regulation of pre-mRNA splicing.

Molecular cloning and characterization of a novel mouse macrophage gene that encodes a nuclear protein comprising polyglutamine repeats and interspersing histidines

Simple tandem repeats of the trinucleotide sequence CAG encode homopolymeric stretches of glutamine. Although polyglutamine has been identified in diverse proteins, it is present predominantly in transcription factors. We observed that oncogene-immortalized mouse macrophages express several genes that contain a CAG repeat motif. Therefore, we attempted to clone a novel gene that contains a CAG repeat and is associated with cytokine activation of macrophages. Screening of a mouse macrophage cDNA library with a probe comprising 12 consecutive CAG triplets identified at least one unique clone. The cDNA encodes a protein (named GRP-1 or glutamine repeat protein-1) with 171 amino acids, a calculated molecular mass of 21.6 kDa, and a predicted pI of 10.67. Greater than two-thirds of GRP-1 are only two amino acids, namely glutamine (50%) and histidine (18%). There are four polyglutamine motifs interspersed with histidine-rich regions. There is also a putative nuclear localization signal flanked by sites for possible serine phosphorylation. GRP-1 mRNA was expressed constitutively in some macrophage cell lines and B and T cell lines. Interferon-gamma or lipopolysaccharide augmented GRP-1 mRNA expression in the mouse macrophage cell line ANA-1. Western blot analyses using an antipeptide serum revealed that GRP-1 was localized in the nucleus of ANA-1 macrophages and transfected 3T3 fibroblasts. Overexpression of GRP-1 decreased Sp1-driven chloramphenicol acetyltransferase gene expression in transient cotransfection experiments. Because polyglutamine motifs can cause protein oligomerization and can function as transcriptional activation domains, we suggest that GRP-1 may be a transcription factor associated with interferon-gamma- or lipopolysaccharide-induced activation of macrophages.

Association of the expression of an SR-cyclophilin with myeloid cell differentiation

The role of a 150-kD SR-cyclophilin (NK-TR1) in monocyte differentiation was investigated. Using an antipeptide monoclonal antibody, we have detected NK-TR1 in human peripheral blood monocytes and HL-60 cells. Unstimulated monocytes showed a low intracellular level of NK-TR1 protein that increased over 3 days of lipopolysaccharide + interferon-gamma treatment, consistent with the kinetics of monocyte differentiation. Normal HL-60 cells also had a low level of NK-TR1 protein, and exposure to 1.25% dimethyl sulfoxide (DMSO) resulted in a marked transient increase in expression that returned to basal levels before the development of granulocyte differentiation-associated biochemical changes. Phorbol myristate acetate, a promoter of monocytic differentiation in HL-60 cells, also caused a significant increase in NK-TR1 over basal levels. Transfection of a vector expressing NK-TR1 antisense RNA into HL-60 cells suppressed DMSO-mediated growth arrest. In addition, the development of a more mature phenotype, as measured by expression of CD16, and the ability to reduce nitroblue tetrazoleum dye was inhibited in transfectants when compared with controls. These results are consistent with the hypothesis that the NK-TR1 gene product is required for the progression towards a mature differentiated phenotype.

Cloning and functional characteristics of murine large granular lymphocyte-1: a member of the Ly-49 gene family (Ly-49G2)

Large granular lymphocyte (LGL) 1 is a cell surface glycoprotein expressed on a subset (50%) of C57BL/6 natural killer (NK) cells. Immunoprecipitation experiments reveal that the LGL-1 protein exists as a disulfide-linked 40-kD homodimer. Functional studies of LGL-1+ cells indicate that selected H-2d target cells are not lysed efficiently by these interleukin (IL)-2-cultured NK cells. These findings suggested that LGL-1 may be a member of the Ly-49 gene family. Here we report the molecular cloning of the LGL-1 cDNA from a severe combined immunodeficient-adherent lymphokine-activated killer cell library transfected into Cos-7 cells and find LGL-1 to be homologous to the Ly-49 gene at both the nucleotide (85%) and amino acid levels (73%). Sequencing of our LGL-1 cDNA has revealed it to be nearly identical to the Ly-49G2 cDNA recently isolated by cross-hybridization with an Ly-49 probe. LGL-1 represents a type II transmembrane protein of 267 amino acids with its carboxyl end exposed extracellularly. The LGL-1 protein contains 11 highly conserved cysteine residues and a 25-amino acid transmembrane region. Southern blot analysis demonstrates that there are a number of homologous genes in mouse DNA that hybridize strongly to LGL-1. Northern analyses using poly A+ RNA from LGL-1+ NK cells indicate that LGL-1 is expressed as a 1.4 kb mRNA. Two-color flow cytometry analysis (FCA) of C57BL/6 splenic NK cells demonstrates that LGL-1 and Ly-49 label overlapping subsets of cells. FCA identifies four subsets of NK cells as defined by LGL-1 versus Ly-49 staining. We have sorted these individual subsets, expanded them in IL-2, and performed cytotoxicity experiments to determine their target cell profiles in relation to class I expression. Results of these studies are complex, but indicate that Ly-49 may not be the only molecule that recognizes class I as an inhibitory signal for cytotoxicity. LGL-1+ cells also fail to lyse several H-2d-expressing tumor targets and concanavalin A lymphoblasts from BALB/c but not C57BL/6 mice. This inhibition of lysis by LGL-1+ NK cells is negated by addition of monoclonal antibody (mAb) 4D11 that recognizes the LGL-1 protein. When mAbs to the class I molecules H-2Dd and H-2Ld (alpha 1 alpha 2 domains only) are added to cytotoxicity assays, LGL-1+ cells lyse H-2d targets very effectively.(ABSTRACT TRUNCATED AT 250 WORDS)

Selective loss of NK cytotoxicity in antisense NK-TR1 rat LGL cell lines. Abrogation of antibody-independent tumor and virus-infected target cell killing

We have shown that NK-TR1, a protein containing a cyclophilin-like domain, is associated with a receptor/triggering molecule on the surface of human large granular lymphocytes (1). In the present study, we have further defined the role of NK-TR1 in target cell recognition/killing by generating antisense NK-TR1 transfectants in the rat LGL cell line, RNK-16. Stable transfectants were identified by analyzing permeabilized cells with the anti-NK-TR1 mAb, 4F9. Transfectants with low levels of 4F9 staining showed drastically reduced levels of killing against three NK-susceptible target cell lines. Lytic activity against vaccinia virus-infected cell lines also was dramatically reduced. In contrast, transfected cells showing normal levels of NK-TR1 expression demonstrated normal killing of all target cells. The ability of all transfectants to form conjugates was identical to that observed with the wild-type RNK cell line. Lectin-dependent cytotoxicity, reverse ADCC via NKR-PI, and ADCC-mediated killing were comparable in both high or low NK-TR1 expressing clones, demonstrating that the lytic machinery was still intact. BLT-esterase activity, PF levels, and surface marker phenotype were not significantly affected. These results provide strong evidence that NK-TR1 is an essential element in a signaling pathway leading to MHC unrestricted killing of tumor and virus-infected cells.

Selective loss of NK cytotoxicity in antisense NK-TR1 rat LGL cell lines. Abrogation of antibody-independent tumor and virus-infected target cell killing

We have shown that NK-TR1, a protein containing a cyclophilin-like domain, is associated with a receptor/triggering molecule on the surface of human large granular lymphocytes (1). In the present study, we have further defined the role of NK-TR1 in target cell recognition/killing by generating antisense NK-TR1 transfectants in the rat LGL cell line, RNK-16. Stable transfectants were identified by analyzing permeabilized cells with the anti-NK-TR1 mAb, 4F9. Transfectants with low levels of 4F9 staining showed drastically reduced levels of killing against three NK-susceptible target cell lines. Lytic activity against vaccinia virus-infected cell lines also was dramatically reduced. In contrast, transfected cells showing normal levels of NK-TR1 expression demonstrated normal killing of all target cells. The ability of all transfectants to form conjugates was identical to that observed with the wild-type RNK cell line. Lectin-dependent cytotoxicity, reverse ADCC via NKR-PI, and ADCC-mediated killing were comparable in both high or low NK-TR1 expressing clones, demonstrating that the lytic machinery was still intact. BLT-esterase activity, PF levels, and surface marker phenotype were not significantly affected. These results provide strong evidence that NK-TR1 is an essential element in a signaling pathway leading to MHC unrestricted killing of tumor and virus-infected cells.

Response of canine mast cell tumors to treatment with oral prednisone

Twenty-five dogs with naturally occurring mast cell tumors were treated with daily oral prednisone (1 mg/kg) for 28 days. Five dogs (20%) had reduction in tumor volume and were considered responders. Four of these underwent partial remission and one underwent complete remission. Survival times for the five responders were 3, 5, 6, 7.5, and greater than 28 months, respectively. We therefore conclude that prednisone is effective in some canine mast cell tumors. Further studies are indicated to determine the most effective dose of prednisone, the appropriate duration of treatment, and the efficacy in more benign mast cell tumors, and in combination with other forms of therapy.

Expression of the NK-TR gene is required for NK-like activity in human T cells

NK cells lyse target cells without previous immune sensitization. A small subset of T cells also exhibits NK-like activity, which is distinct from TCR-mediated, MHC-restricted, and MHC-unrestricted cytotoxicity. We recently cloned a gene, NK-TR, which is postulated to be part of the NK target-recognition/triggering complex. To determine whether the NK-TR gene product is requisite for NK-like killing, stable antisense transfectants were generated by using a human T cell clone with NK-like activity. Two distinct antisense regions of the sequence were used to generate the transfectants alpha NK-TR and alpha Cyclo. Transfectants lost the ability to lyse NK-sensitive targets but did not lose lectin-mediated cytotoxic activity. This effect was not seen with the control vector transfectant cell line. The loss of NK-like activity by the antisense transfectant alpha NK-TR correlated with the specific decrease in endogenous NK-TR mRNA and protein. These results demonstrate the requirement for the NK-TR protein for NK-like killing. Moreover, the results have important implications for examining developmental relationship between T and NK cells and the possible roles for T cells with NK-like activity in vivo.