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The mechanism(s) responsible for halo nevus presents a provocative link with the immune response to melanoma. Although no direct demonstration of melanocyte killing has been observed by the immune effector cells found within the halo, the abundance of antigen-presenting cells in the regressing nevus and the presence of T lymphocytes at the site of depigmentation suggest that these cells participate in the halo phenomenon. Within the latter population of cells, evidence points to the involvement of CD8+ T cells as potential effectors in the destruction of nevomelanocytes. The break in tolerance that triggers migration and the presumed activation of these and other lymphocytes in the nevus in the apparent absence of disease remains unexplained. This brief overview reviews the evidence for the participation of the immune response in the genesis of the halo nevus.

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Mouse and human beta2-microglobulin (beta2m), which differ by 30% in their primary sequence, give rise to disparate levels of HLA class I heavy chain expression in transfectants of the beta2m-null FO-1 human melanoma cell line, i.e., mouse beta2m directs expression of HLA class I heavy chains that is only approximately 20%-30% of that observed for heavy chains assembled with human beta2m. In this report we describe our efforts to better understand the structural basis of this regulatory phenomenon. Initial insight into the importance of the N-terminus of beta2m on HLA expression came from studies with FO-1 cells transfected with chimeric (human X mouse) B2m genes. Chimeric beta2m molecules containing residues 1-69 from human beta2m and residues 70-99 from mouse beta2m (designated HM- beta2m) induced expression of HLA heavy chains to a significantly greater extent ( approximately 80% of level observed with cognate beta2m) than the reverse chimeric construct (designated MH- beta2m) (10%-15% of level observed with cognate beta2m). These data are consistent with the view that the major determinants of HLA class I heavy chain expression map to the portion of the beta2m molecule which forms the four-stranded beta-pleated sheet, comprised of S1, S2, S4, and S5, and one strand of the three-stranded sheet (S3). The mapping of class I regulatory sites to the portion of beta2m containing the four-stranded beta-pleated sheet supports the interpretation that the heavy chain contact residues on beta2m play the major role in regulating major histocompatibility (MHC) class I expression. To further dissect beta2m-mediated regulation of HLA class I expression, site-directed mutants of beta2m were prepared by conversion of human beta2m to the mouse sequence at individual amino acid positions within the four-stranded and three-stranded beta-pleated sheets. Human to mouse amino acid substitutions were made in each divergent residue between positions 1-66, and as controls for COOH-terminal modification, several residues between positions 75 and 94. Cytofluorometry with HLA class I-specific antibodies indicated that cell surface expression of HLA class I heavy chains was largely insensitive to each of the individual substitutions. It is concluded that a combination of divergent residues mapping to positions of heavy chain contact are responsible for the differences observed in MHC class I expression by heterologous forms of beta2m.

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Genetically engineered structural variants of human beta2-microglobulin (beta2m) were produced by sequence exchange with mouse beta2m for the purpose of examining species-specific antigenic determinant expression. For aggregate mapping, mouse and human beta2m, which differ by 30% in their primary sequence of 99 amino acids, were prepared as chimeric (human X mouse) molecules and expressed in the FO-1 beta2m-null human melanoma cell line. A chimera containing residues 1-69 from human beta2m (and residues 70-99 from mouse beta2m) induced expression of the epitopes defined by the anti-beta2m monoclonal antibodies (mAb) BBM.1, NAMB-1, and L368; the reverse chimera did not, although HLA class I heavy chain was evident on the cell surface as determined with the TP25.99 mAb. For fine dissection of the epitopes defined by these mAbs, site-directed mutants of beta2m were prepared by replacement of individual amino acids in human beta2m with the dimorphic residue from mouse beta2m. Substitutions were made at each divergent residue between positions 1 and 66 and, as controls for COOH-terminal modification, a series of residues between positions 75 and 94. Replacement of amino acids 38, 44, and 45, but not 16 other dimorphic residues in the linear stretch from residue 1 to residue 66, resulted in the loss of, or gross reduction in, binding by mAbs BBM.1 and NAMB-1. A reduction in binding was also observed for mAb L368. These data provide strong evidence that the antigenic epitopes defined by these mAb map to a region including S3 and its adjacent intra-beta-strand turn of the three-stranded beta-pleated sheet of beta2m. The mapping of these epitopes is consistent with their accessibility in the assembled major histocompatibility complex class I molecule and indicates that the region from amino acid 38 to 45 is an important structural feature in the "foreignness" of human and mouse beta2m.

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Tissue factor (TF) exists in a cryptic form [i.e. without procoagulant activity (PCA)] in peripheral blood monocytes and quiescent tissue macrophages but is expressed constitutively in most human tumor cells. Induction and cell surface expression of TF in these cells in vivo is associated with activation of intravascular and extravascular coagulation in patients with a variety of inflammatory or malignant diseases. The regulation of TF synthesis in cells is complex and new information from transfection studies suggests that changes in cellular glycosylation pathways impair cell surface expression of functional TF. Such dysregulation may also characterize the lineage-unfaithful expression of TF in leukemic cells and perhaps explain some of the thrombohemorrhagic complications in patients with acute progranulocytic leukemia. The importance of carbohydrate modification of TF is reviewed.

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A C164Y somatic mutation in the H-2Kb class I molecule causes a disruption of the alpha 2 domain disulfide bond and results in a loss of H-2Kb cell surface expression by the 69.9.15 cell line. In vitro culture of the somatic cell variant at 30 degrees C induced weak, but reproducible, expression of the H-2Kb mutant molecule on the cell surface, which suggests that a temperature-sensitive mutation was contributing to the H-2Kb null phenotype. Based on the inherent structural instability of the mutant H-2Kb molecules synthesized by 69.9.15 cells, we sought to determine the ability of high affinity peptide-ligand to counteract the null expression of H-2Kb. Treatment of 69.9.15 cells was performed with acid-eluted cell-derived peptides, as well as synthetic H-2Kb-restricted peptides, ovalbumin (OVA) p257-264 (YSIINFEKL), and vesicular stomatitis virus-nuclear protein p52-59 (RGYVYQGL). Whereas the endogenous and vesicular stomatitis virus peptides were ineffective at inducing H-2Kb expression at either 37 degrees C or 30 degrees C, treatment with the OVA peptide at 30 degrees C gave rise to dose-dependent enhancement in H-2Kb expression, an effect that was independent of exogenous sources of bovine beta 2-microglobulin at the time of peptide treatment. By comparison, expression of H-2Kb remained unaltered when cells were treated with the OVA peptide at 37 degrees C, consistent with the temperature-sensitive expression of the mutant molecules. Decay of H-2Kb from the cell surface was similar for both 69.9.15 and RMA-S cells, an indication that binding of OVA p257-264 provided the same level of stability for class I molecules with either a cis-(69.9.15) or trans-acting (RMA-S) defect in heavy chain transport. These data provide novel evidence that transport-defective MHC class I molecules, similar in nature to those encoded by class I genes isolated from human genomic libraries, i.e., the 12.4 pseudogene with a polymorphism at amino acid position 164 (C-->F), are subject to high affinity peptide-induced stabilization which reverses the class I null phenotype.

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Previously, we reported that expression of the murine beta 2-microglobulinb (beta 2mb) antigenic epitopes defined by the mAb S19.8 and 23 (SJL [beta 2ma] anti-B10.S beta 2mb]) was dependent upon association of beta 2m with MHC class I heavy chains. We have further explored the antigenic properties of beta 2m under circumstances requiring the induction of MHC class I surface expression with heavy chain-specific peptide-ligand. For the RMA-S cell line, which is class I surface null due to a defect in the TAP-2 peptide transporter, treatment with the H-2Kb-specific vesicular stomatitis virus-derived N p52-59 peptide resulted in the cell surface expression of the epitopes defined by the anti-H-2Kb mAb Y-3, as well as equally strong expression of the epitopes defined by the anti-beta 2mb mAb S19.8 and 23. Similarly, the FLU-NP p366-374 peptide induced H-2Db on the surface of RMA-S cells as determined by cytofluorometry with the mAb MKQ8; however, expression of the epitope defined by S19.8 was only partially recovered and no reactivity was observed for mAb 23. That the H-2Db heavy chain was assembled with beta 2mb on the cell surface was established from immunoprecipitation experiments with 125I-surface-radiolabeled RMA-S cells treated with FLU-NP p366-374; MKQ8 immunoprecipitated prominent heavy chain and beta 2m bands, whereas S19.8 and 23 isolated a weak beta 2m band (12-15% of that co-immunoprecipitated with MKQ8). These results are consistent with the observation that human beta 2m-deficient cells (designated FO-1) transfected with the B2mb allele were induced, in combination with the endogenous HLA class I heavy chains, to express the epitope defined by S19.8, but not mAb 23, whereas both were expressed when contransfection was performed with the H-2Kb gene. That the determinants recognized by S19.8 and 23 were formed by a discontinuous cluster of amino acids within beta 2m was established from experiments demonstrating that H-2Kb heavy chain assembled with a chimeric beta 2m molecule (comprising human beta 2m from 1-69 and mouse beta 2m from amino acid 70-99, including the polymorphic residue Ala 85) did not lead to expression of the S19.8 and 23 epitopes. The results of this study provide evidence that heavy chain polymorphism can affect the antigenic properties of beta 2m and offer insight into the basis by which CTL may react against beta 2mb when assembled with the H-2Kb molecule.

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To study the roles of beta 2-microglobulin (beta 2-m) and major histocompatibility complex (MHC) class I expression in human cytomegalovirus (HCMV) infection, the ability of HCMV strain AD-169 to infect and replicate in a human melanoma cell line (FO-1), which is beta 2-m-deficient and cannot express MHC class I on its cell surface, was examined. Susceptibility of FO-1 cells was compared with human foreskin fibroblasts (HFF) and FO-1H cells (FO-1 cells that have been transfected with the human beta 2-m gene, restoring MHC I expression on the cell surface). As judged by the HCMV immediate early 1 (IE-1) antigen expression, HCMV was able to infect FO-1 cells, although somewhat less efficiently than HFF. However, the expression of HCMV late (L) antigen and the production of virus was significantly less for FO-1 cells than for HFF. Analysis of the FO-1H transfectants revealed that expression of IE-1 and L HCMV antigens was comparable to FO-1 cells, which lack MHC I. Treatment of FO-1 and FO-1H cells with sodium butyrate prior to inoculation did not alter the expression of MHC I in either cell type, but did increase susceptibility of both cell types to HCMV infection, as well as the expression of L antigens and production of virus. These studies indicate that HCMV infection of FO-1 cells is independent of beta 2-m and MHC class I expression.

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beta 2-Microglobulin (beta 2-mu) gene-null human melanoma FO-1 cells display lower reactivity with anti-HLA class I monoclonal antibodies (mAb) following transfection with a wild-type mouse beta 2-mu gene (referred to as FO-1C cells) than following transfection with a wild-type human beta 2-mu gene (referred to as FO-1H cells). Furthermore, binding assays with a panel of anti-HLA class I mAb detected higher reactivity of FO-1C cells with mAb TP25.99 than with mAb CR1-S63, CR10-215, CR11-115, TP67, and W6/32 but similar reactivity of FO-1H cells with all the mAb tested. While mAb TP25.99 recognizes a determinant expressed on beta 2-mu-free and beta 2-mu-associated HLA class I heavy chains, the remaining mAb recognize determinants expressed only on beta 2-mu-associated HLA class I heavy chains. The differential effects of mouse and human beta 2-mu on the reactivity with anti-HLA class I mAb of FO-1 cells reflect more than one mechanism. Besides abnormalities in the processing of HLA class I heavy chains associated with mouse beta 2-mu, this molecular complex appears to be unstable on the plasma membrane of FO-1 cells. To analyze the interaction of mouse beta 2-mu with HLA-A and -B antigens, the HLA phenotype of FO-1 cells was determined, using a combination of isoelectric focusing analysis of antigens immunoprecipitated from radiolabeled cells with mAb to monomorphic determinants of HLA class I antigens, binding assays with a limited number of mAb recognizing HLA class I allospecificities, and sequence-specific oligonucleotide probe typing. Although association with mouse beta 2-mu does not cause marked differences in the expression of HLA-A25 and -B8 antigens on the cell surface of FO-1 cells, it causes a selective reduction in the expression of determinants recognized by anti-HLA-A mAb F4/72 and VF19-LL67 and by anti-HLA class I mAb W6/32 on HLA-A25 allospecificities. The differential effect of the association with mouse beta 2-mu on the antigenic profile of HLA-A25 and -B8 antigens may reflect the different characteristics of the amino acids at residue 12, which interact with residue 33 of beta 2-mu. The latter residue is the only one to differ between human and mouse beta 2-mu in the stretch of amino acids interacting with the alpha 1 and alpha 2 domains of HLA class I heavy chains.(ABSTRACT TRUNCATED AT 400 WORDS)

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The major histocompatibility complex (MHC) class I gene products are known to play a fundamental role in foreign antigen presentation to the cellular immune system. Much attention has been directed to the study of MHC class I gene expression as a means to understanding the processes by which MHC class I-mediated immune responses are regulated. Two areas of considerable interest have emerged, including regulation at the levels of transcriptional control and antigenic peptide-induced transport of MHC class I molecules. With an emphasis on these major areas of research, we review recent developments on the molecular and biochemical mediators and events of MHC class I gene regulation.

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The lack of HLA class I antigen expression by the melanoma cell line SK-MEL-33 is caused by a unique lesion in beta 2-microglobulin (beta 2-mu). Sequencing of beta 2-mu mRNA detected a guanosine deletion at position 323 in codon 76 that causes a frameshift with a subsequent introduction of a stop codon at a position 54 base upstream of the normal position of the stop codon in the message. The loss of 18 amino acids and the change of 6 amino acids, including a cysteine at position 80 in the carboxy terminus of beta 2-mu, are likely to cause marked changes in the structure of the polypeptide. The latter may account for the inability of beta 2-mu to associate with HLA class I heavy chains and for its lack of reactivity with the anti-beta 2-mu mAb tested. HLA class I antigen expression on SK-MEL-33 cells was reconstituted after transfection with a wild-type B2m gene, therefore indicating that the abnormality of endogenous B2m gene is the only mechanism underlying lack of HLA class I antigen expression by SK-MEL-33 cells. The guanosine deletion in B2m gene was detected also in the melanoma tissue from which SK-MEL-33 cells had originated. Therefore, the molecular lesion identified in the SK-MEL-33 melanoma cell line is not caused by a mutation acquired during growth in vitro but is likely to reflect a somatic mutation during tumor progression.

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In this report we provide evidence for the expression of antigenic epitopes on mouse beta 2-microglobulin(b) (beta 2mb) that result from assembly with cognate H-2 class I heavy chains. For the cell line 69.9.15 (beta 2ma x beta 2mb), which expresses a mutant cytosolic form of H-2Kb and wild-type H-2Db, flow cytometry with rabbit antiserum against mouse beta 2m displayed beta 2m expression by cells grown in the presence or absence of fetal calf serum. By contrast, the epitopes identified by the beta 2mb-specific monoclonal antibody (mAb) S19.8 and clone 23 were not expressed by 69.9.15 cells grown in serum-containing conditions, and although S19.8 reactivity was weakly recovered by culture in the absence of serum, no such reactivity was observed with clone 23. Strong expression of these epitopes was achieved following transfection of 69.9.15 cells with the wild-type H-2Kb gene, indicating that the beta 2mb epitopes defined by mAb S19.8 and clone 23 were expressed when beta 2mb was assembled with an appropriate heavy chain. In support of this conclusion, we observed the recovery of the S19.8 and clone 23 epitopes by in vitro assembly of H-2Kb heavy chains with beta 2mb in the presence of the VSV N protein p52-59; however, such epitopes were expressed neither by beta 2mb prior to heterodimer assembly nor by non-conformed beta 2mb present in tissue culture supernatants recovered from H-2 class I surface positive cells. Taken together, these data indicate that in addition to the property of beta 2m to modify the antigenicity of the MHC class I heavy chains, beta 2m epitopes are induced in a reciprocal manner by assembly with MHC class I heavy chain molecules.

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The passage of MHC class I heavy chains through the exocytic pathway is promoted by association with beta 2 microglobulin (beta 2m). In order to analyze the structural basis of this phenomenon, processing and cell surface expression of HLA class I molecules have been investigated in the beta 2m null human melanoma cell line FO-1 transfected with either the human or mouse beta 2m genes. These natural structural variants of beta 2m display 30% amino acid sequence divergence. In comparison with a human beta 2m transfectant of the FO-1 cell line (designated FO-1H), FO-1 cells transfected with the mouse beta 2m gene (FO-1C) express HLA class I molecules that are processed with grossly altered kinetics and are present on the cell surface at reduced levels. The suboptimal expression of HLA class I heavy chains encoded by FO-1C cells reflects a defect in heavy chain stability since cell surface expression of HLA class I antigens was increased following incubation at 30 degrees C. The increased cell surface expression paralleled accelerated processing of HLA class I heavy chains by FO-1C cells. In contrast, no induction in either cell surface expression or processing of HLA class I heavy chains was observed for the beta 2m-negative FO-1 parent cell line, which remained HLA class I antigen null when cultured at 30 degrees C, or the FO-1H human beta 2m transfectant, which expressed equivalent levels of HLA class I antigens on the cell surface at 37 degrees C and 30 degrees C. Further up-regulation of the temperature-sensitive induction of HLA class I antigen expression was accomplished by treatment of the FO-1C transfectant with interferon-gamma; this latter effect appears to be active at a posttranscriptional step for FO-1 cells since IFN-gamma was not as potent a transcriptional activator at 30 degrees C as it was at 37 degrees C. These results indicate that HLA class I heavy chains expressed by FO-1C cells are subject to temperature-sensitive and cytokine-inducible stabilization that increases their affinity for the structural variant of beta 2m and promotes exocytosis of the HLA class I heterodimer to the cell surface. Furthermore, beta 2m non-conformed MHC class I heavy chains undergo stabilization that is not associated with enhanced cell surface expression, indicating that the exocytosis of putative "empty" HLA class I antigens is a process dependent upon association with beta 2m.

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Numerous examples of altered expression of MHC class I antigens by cells with a malignant phenotype have been described. Of particular interest in this regard has been the description of neoplastic cells with attenuated class I antigen expression. The model system used in this laboratory for understanding the molecular mediators and events associated with attenuation in MHC class I gene expression enlists the use of Abelson virus transformed leukemia cells from which H-2 surface null variants have been immunoselected. For these variants, interdiction in MHC antigen expression occurs at many levels of eukaryotic gene regulation. The regulated expression of H-2 antigens from these somatic cell variants is discussed in relationship to the mechanisms of attenuated MHC class I gene expression described for other leukemias.

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We have previously demonstrated that Il-1 and TNF could rapidly, but transiently, induce gene expression of Il-1 beta in human polymorphonuclear leukocytes (PMN) at both the protein and mRNA level. Additionally, we demonstrated a cooperative effect of Il-1 and TNF on the kinetics of induction of Il-1 beta mRNA and protein. In order to better understand the molecular basis of Il-1 beta induction, we have further investigated the regulation of Il-1 and TNF-induced gene expression in the PMN. Using nuclear run-on transcription analysis, we found that within 1 h Il-1, TNF, and TNF plus Il-1 induced the transcription of the Il-1 beta gene by 33-, 61-, and 99-fold, respectively. By 2 h, the levels of transcription had been reduced to approximately 50% of peak levels for TNF- and TNF plus Il-1-treated PMN, and to near noninduced levels in Il-1-treated PMN. We also found that these cytokines induced stable mRNA, i.e., Il-1 beta mRNA t1/2 for Il-1-, TNF-, and TNF plus Il-1-induced PMN were 57, 94, and 86 min, respectively. By 2 h, when steady state levels of Il-1 beta mRNA were found to decrease, Il-1 beta mRNA t1/2 had fallen to approximately 18 min for all cytokine treatments. To determine if protein synthesis was required for induction of Il-1 beta gene expression, we treated PMN simultaneously with cytokines and cycloheximide, and found that cycloheximide enhanced the accumulation of Il-1-induced Il-1 beta mRNA, but abrogated the accumulation of Il-1 beta mRNA, by TNF- or TNF plus Il-1-treated PMN. This abrogation of Il-1 beta mRNA accumulation was not caused by inhibition of induction of Il-1 beta transcription because TNF induction of transcription of Il-1 beta was not affected by simultaneous treatment with cycloheximide. Thus, we report that Il-1 and TNF regulate IL-1 beta gene expression via both transcriptional and post-transcriptional mechanisms in vitro.

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Numerous tumor cell lines of leukemic origin are known to modulate cell surface expression of major histocompatibility complex (MHC) class I antigens resulting in alterations in their immune detection and tumorigenicity. We have been studying the mechanisms responsible for attenuation of MHC class I gene expression in an H-2 heterozygous (H-2b x H-2d) Abelson-Murine leukemia virus (A-MuLV)-transformed leukemic cell line (designated R8). Here we report that treatment of the R8 cell line with the protein synthesis inhibitor cycloheximide (CHX) increased H-2Kb steady-state messenger RNA (mRNA) levels several fold. The induced H-2Kb mRNA transcripts were functional, as demonstrated by their ability to be translated into immunoprecipitable H-2Kb alloantigen. H-2Kb null variants derived from the R8 cell line were shown to be the product of both cis- and trans-acting mechanisms, insomuch as the treatment of R8-derived H-2Kb non-expressor lines with CHX re-established expression of H-2Kb mRNA to the same extent as transfection of the variant cell line with the wild-type H-2Kb gene. Such findings indicate that downregulation of MHC class I gene expression is constitutive for the R8 leukemic cell line, a phenomenon that may be related to the immature pre-B-cell phenotype of this A-MuLV transformant.

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Induction of HLA class I antigens on cultured melanoma cells FO-1 after transfection with a human or a mouse B2m gene was associated with a statistically significant reduction in their susceptibility to natural killer (NK) cell-mediated lysis. These results indicate that the structural differences between human and mouse beta 2-mu do not abolish the ability of the HLA class I molecular complex to modulate NK cell-mediated lysis of melanoma cells FO-1. The role of HLA class I antigens in the phenomenon is corroborated by the ability of anti-HLA class I MAb to enhance, although to a different extent, the susceptibility of transfected FO-1 cells to NK cell-mediated lysis. Gamma interferon (IFN-gamma) and tumor necrosis factor-alpha (TNF-alpha) significantly reduced the susceptibility to NK cell-mediated lysis of transfected FO-1 cells. Surprisingly, TNF-alpha reduced the extent of lysis more than IFN-gamma, although the latter cytokine enhanced HLA class I antigen expression more than the former one. This finding, in conjunction with a reduction in the susceptibility to NK cell-mediated lysis of untransfected FO-1 cells incubated with IFN-gamma or TNF-alpha, suggests that the two cytokines reduce NK cell-mediated lysis of transfected cells by modulating not only the expression of HLA class I antigens, but also that of other structures. Induction of HLA class I antigens and their modulation with IFN-gamma did not affect the susceptibility to lymphokine-activated killer (LAK) cell-mediated lysis of transfected FO-1 cells. Characterization of the molecular mechanism(s) underlying abnormalities in HLA class I antigen expression by melanoma cells and of the role of these molecules in the interactions of melanoma cells with various types of effector cells may suggest novel immunotherapeutic approaches to melanoma.

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The melanoma cell line FO-1 does not express HLA class I antigens and does not acquire them on the cell surface after incubation with IFN-gamma. Immunochemical studies showed that FO-1 cells synthesize HLA class I heavy chain, but do not synthesize beta 2-microglobulin (beta 2-mu). The latter abnormality is associated with lack of beta 2-mu mRNA which remains undetectable in FO-1 cells incubated with IFN-gamma. The defect was identified as a genetic lesion in the B2m gene, since DNA hybridization analysis detected a deletion of the first exon of the 5'-flanking region, and of a segment of the first intron of the B2m gene. HLA class I antigen expression was reconstituted on melanoma cells FO-1 after transfection with the wild-type mouse B2m gene, thereby confirming the abnormality of the endogenous B2m gene. The defect identified in FO-1 cells is distinct from that underlying the lack of HLA class I antigen expression by lymphoblastoid cells Daudi, but is remarkably similar to that causing lack of H-2 class I antigen expression by mouse lymphoblastoid cells R1 (TL-). These results suggest that genetic recombination in the 5' region of the B2m gene is a recurrent mechanism in B2m gene defects. In addition to contributing to our understanding of molecular abnormalities in HLA class I antigen expression by melanoma cells, FO-1 cells represent a useful model for analyzing the role of HLA class I antigens in the biology of melanoma cells and in their interaction with cells of the immune system.

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Although recently polymorphonuclear leukocytes (PMN) have been identified as producers of IL-1 beta in response to LPS and granulocyte/monocyte colony stimulating factor, little is known regarding the ability of other cytokines to induce the production of IL-1 beta in the PMN. Inasmuch as IL-1 and TNF have been shown to be important priming agents, as well as agents that induce migration of PMN, we investigated their effect on IL-1 beta gene expression in human peripheral blood PMN. In the present study, we demonstrate that human peripheral blood PMN produce IL-1 beta in response to IL-1 alpha, IL-1 beta, and TNF-alpha. Control (unstimulated) human PMN had virtually undetectable levels of IL-1 beta mRNA. Either IL-1 beta or TNF, induced PMN to transiently express IL-1 beta mRNA with peak expression at 1 h, returning to untreated levels by 2 h. A dose response indicated that as little as 0.05 ng/ml of IL-1 beta or TNF resulted in IL-1 beta induction, with maximal effects at 1 ng/ml of IL-1 beta and 5 ng/ml of TNF. IL-1 alpha or IL-1 beta exhibited similar dose responses in IL-1 beta mRNA induction. Inasmuch as cytokines have been shown to have synergistic effects in cell function studies, we induced PMN with a combination of maximally effective doses of TNF plus IL-1 beta. They demonstrated a cooperative effect on IL-1 beta gene expression, in that mRNA levels were sustained for three hours. IL-1 beta Ag expression, as measured by ELISA, paralleled IL-1 beta mRNA expression with cell associated peak levels at 2 to 4 h. IL-1 beta Ag levels in PMN lysates and supernatants correlated with IL-1 beta mRNA levels, i.e., TNF + IL-1 greater than TNF greater than IL-1. Thus, these studies represent the first demonstration of IL-1 and TNF induction of IL-1 beta gene expression in the PMN. Furthermore, the time course of induction is unique to the PMN, with peak induction of mRNA at 1 h, which is consistent with the short lived nature of these cells in inflammatory lesions.

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