Increased expression of Fc gamma receptor in cancer patients and tumor bearing mice

Metastatic melanomas express inhibitory low affinity fc gamma receptor and escape humoral immunity

Our research, inspired by the pioneering works of Isaac Witz in the 1980s, established that 40% of human metastatic melanomas express ectopically inhibitory Fc gamma receptors (FcγRIIB), while they are detected on less than 5% of primary cutaneous melanoma and not on melanocytes. We demonstrated that these tumoral FcγRIIB act as decoy receptors that bind the Fc portion of antimelanoma IgG, which may prevent Fc recognition by the effector cells of the immune system and allow the metastatic melanoma to escape the humoral/natural immune response. The FcγRIIB is able to inhibit the ADCC (antibody dependent cell cytotoxicity) in vitro. Interestingly, the percentage of melanoma expressing the FcγRIIB is high (70%) in organs like the liver, which is rich in patrolling NK (natural killer) cells that exercise their antitumoral activity by ADCC. We found that this tumoral FcγRIIB is fully functional and that its inhibitory potential can be triggered depending on the specificity of the anti-tumor antibody with which it interacts. Together these observations elucidate how metastatic melanomas interact with and potentially evade humoral immunity and provide direction for the improvement of anti-melanoma monoclonal antibody therapy.

Tumor-microenvironment interactions: dangerous liaisons

The interaction between microenvironmental components and tumor cells is bidirectional. Tumor cells and their products are capable of regulating and altering gene expression in nontumor cells residing in or infiltrating into the microenvironment and exert selective pressures on such cells, thereby shaping their phenotype. Conversely, microenvironmental components regulate gene expression in tumor cells thereby directing the tumor into one or several possible molecular evolution pathways, some of which may lead to metastasis. This review summarizes six instances in which the tumor liaises with different components of its microenvironment. These liaisons result, in most cases, in enhanced tumor progression. In these cases (responses of tumor and nontumor cells to microenvironmental stress, the interaction of the tumor with fibroblasts, endothelial cells and macrophages, the formation of the metastatic niche, and the interaction of the tumor with immunoglobulins) the tumor, directly or indirectly, alters the phenotype of its interaction partners thereby enlisting them to promote its progression. Does the tumor need all these pathways to form metastasis? Is there a hierarchy of interactions with respect to impact on tumor progression? These questions remain open. They may be answered by approaches employed in the analysis of hypercomplex systems.

Fc gamma receptors and cancer

FcgammaRs are a family of heterogeneous molecules that play opposite roles in immune response and control the effector functions of IgG antibodies. In many cancers, IgG antibodies are produced that recognize cancer cells, form immune complexes and therefore, activate FcgammaR. The therapeutic efficacy of monoclonal IgG antibodies against hematopoietic and epithelial tumors also argue for an important role of IgG antibodies in anti-tumor defenses. Since the 1980s, a series of lines of evidence in experimental models and in humans strongly suggest that FcgammaR are involved in the therapeutic activity of monoclonal IgG antibodies by activating the cytotoxic activity of FcgammaR-positive cells such as NK cells, monocytes, macrophages and neutrophils and by increasing antigen presentation by dendritic cells. Since many cell types co-express activating and inhibitory FcgammaR, the FcgammaR-dependent effector functions of IgG anti-tumor antibodies are counterbalanced by the inhibitory FcgammaRIIB. In addition, some tumor cells express FcgammaR either constitutively, such as B cell lymphomas or ectopically, such as 40% of human metastatic melanoma. The tumor FcgammaR isoform is preferentially FcgammaRIIB, which is functional at least in human metastatic melanoma. This review summarizes these data and discusses how FcgammaRIIB expression may influence the anti-tumor immune reaction and how beneficial or deleterious this expression could be for the efficiency of therapeutics based on monoclonal anti-tumor antibodies.

Targeting Sindbis virus-based vectors to Fc receptor-positive cell types

Some viruses display enhanced infection for Fc receptor (FcR)-positive cell types when complexed with virus-specific immunoglobulin (Ig). This process has been termed antibody-dependent enhancement of viral infection (ADE). We reasoned that the mechanism of ADE could be exploited and adapted to target alphavirus-based vectors to FcR-positive cell types. Towards this goal, recombinant Sindbis viruses were constructed that express 1 to 4 immunoglobulin-binding domains of protein L (PpL) as N-terminal extensions of the E2 glycoprotein. PpL is a bacterial protein that binds the variable region of antibody kappa light chains from a range of mammalian species. The recombinant viruses incorporated PpL/E2 fusion proteins into the virion structure and recapitulated the species-specific Ig-binding phenotypes of native PpL. Virions reacted with non-immune serum or purified IgG displayed enhanced binding and ADE for several species-matched FcR-positive murine and human cell lines. ADE required virus expression of a functional PpL Ig-binding domain, and appeared to be FcgammaR-mediated. Specifically, ADE did not occur with FcgammaR-negative cells, did not require active complement proteins, and did not occur on FcgammaR-positive murine cell lines when virions were bound by murine IgG-derived F(ab')2 fragments.

Immunologic parameters as significant prognostic factors in lung cancer

Immunologic prognostic factors in lung cancer have not been fully clarified. We report the results of a prospective study undertaken to clarify the correlation between various cellular immunologic parameters and the survival of lung cancer patients. A total of 287 lung cancer patients were enrolled in this study. Representative in vitro cellular immune activities including lymphoblastogenesis and natural killer cell activities, in addition to the percentage of main lymphocyte subsets (CD3, CD4, CD8, HLA-DR, and Fc gamma R III on T cells) in the peripheral blood were evaluated before the initiation of therapy. The immune factors that influence the prognosis were analyzed by the log rank test and a multivariate analysis using the Cox proportional hazards model. Univariate analysis of the survival curves revealed a significant difference with regard to disease stage (P<0.0001), age (P=0.007), gender (P=0.0037), and HLA-DR (%) (P=0.048), when all the non-small cell lung cancer (NSCLC) patients (n=257) were analyzed together. This analysis, based on the histologic type, revealed that HLA-DR (%) was a significant predictor of survival in squamous cell carcinoma (P=0.0013) and small cell carcinoma (P=0.0025). A decreased CD4/CD8 ratio in small cell carcinoma (P=0.0062) and male gender in adenocarcinoma (P=0.0086) were factors associated with a worse prognosis. Multivariate analysis identified a significant correlation between survival and disease stage (P<0.0001) and gender (P=0.0243) in adenocarcinoma, disease stage (P<0.0001), age (P=0.0436) and HLA-DR (%) (P=0.0142) in squamous cell carcinoma, and HLA-DR (%) (P=0.0212) and CD4/CD8 (P=0.0112) in small cell carcinoma, suggesting independent prognostic significance. A variety of immunologic indices have prognostic significance for the different types of lung cancer. Among these, the HLA-DR (%) in the peripheral blood is the most reliable factor for squamous cell carcinoma and small cell carcinoma.

Receptors involved in microenvironment-driven molecular evolution of cancer cells

Cells, including cancer cells, communicate with their microenvironment via various types of membrane receptors. An important down-stream effect of such interactions is a change in the molecular phenotype of the cells. The microenvironment-driven molecular evolution of cancer cells may induce either growth arrest or death of the cells or alternatively, boost their malignancy phenotype. In this paper we summarize studies from our own laboratory on interactions of cancer cells with microenvironmental ligands via two types of receptors that are not commonly associated with tumour progression i.e. the receptor for the Fc portion of IgG, and Ly-6 proteins of mouse and human origin. We also review information on interactions of tumour-associated chemokines and chemokine receptors with the corresponding microenvironmental factors. We demonstrate how these interactions may drive the molecular evolution of tumour cells and discuss the possible impact of this evolution on tumour progression.

TNFalpha and anti-Fas antibodies regulate Ly-6E.1 expression by tumor cells: a possible link between angiogenesis and Ly-6E.1

Angiogenic and poorly angiogenic tumor variants were obtained by an intraperitoneal inoculation of cells from clones of polyoma-virus transformed BALB/c 3T3 cells into syngeneic mice. The angiogenic tumor cells expressed a higher tumorigenicity phenotype and a higher capacity to produce artificial pulmonary metastases than cells from the poorly angiogenic tumors. The former cells expressed also significantly higher levels of the lymphocyte activation protein Ly-6E.1 than the former cells. The two types of cells did not differ in expression levels of CD44 and of a polyoma-virus specific membrane antigen. These results raise the possibility that the angiogenic phenotype is coregulated with Ly-6. The effect on Ly-6 expression of signal transduction through TNF receptors, functioning as pivotal regulators of angiogenesis was therefore studied. It was found that TNFalpha and more so antibodies against Fas down-regulate expression levels of Ly-6. This down-regulation seemed to be selective as expression levels of CD44 were not affected by this treatment.

Contribution of the intracellular domain of murine Fc-gamma receptor type IIB1 to its tumor-enhancing potential

We have previously shown that Fc gamma receptor type II B1 (Fc(gamma)RIIB1), when expressed on non-lymphoid tumor cells, significantly enhanced their tumorigenic phenotype. This study elucidates the role of the intracellular domain of Fc(gamma)RIIB1 in the enhancement of the malignant phenotype of polyoma-transformed 3T3 cells. We investigated the tumorigenic potential conferred by different variants of the receptor: Fc(gamma)RIIB1, a full-length receptor (B1) whose intracellular region is encoded by exons 8, 9 and 10; Fc(gamma)RIIB2, a spliced variant (B2) whose cytoplasmic domain comprises exons 9 and 10 and lacks exon 8; and Fc(gamma)RIIB1-CT53, a deleted mutant whose cytoplasmic domain contains the fragment encoded by exon 8 alone. We have investigated various properties of cells transfected with each of the above variants: tumorigenicity in syngeneic mice, formation of colonies in soft agar, growth rate, production of soluble receptor and capping of the ligand-bound receptor. Results show that while the presence of exon 8 did not enhance growth rate in vitro or production of soluble Fc(gamma)R, it did enhance the tumorigenic phenotype of transfected cells (both in vivo and in vitro growth in soft agar). B1-expressing cells exhibited a significantly higher tumorigenic phenotype than B2 cells. The presence of exon 8 alone (CT53 mutant) conferred the transfected cells a higher tumorigenic phenotype than Fc(gamma)R-negative control cells but lower than intact B1 or B2 cells, indicating that the presence of B1-specific exon 8 is not sufficient but that the presence of an intact B1 intracellular domain is essential, for conferring the high tumorigenicity phenotype upon cells. We conclude that the capping, following ligand binding contributed by exon 8, and the function contributed by the specific localization of exons 9 and 10 in B1 cells may determine their malignant phenotype.

The murine Fc-gamma (Fc gamma) receptor type II B1 is a tumorigenicity-enhancing factor in polyoma-virus-transformed 3T3 cells

The murine receptor for the Fc portion of IgG is a molecule expressed by cells of the immune system. This study suggests the hypothesis that Fc gamma receptor type II B I (Fc gamma RIIB I) functions as a progression-enhancing factor when expressed ectopically on non-lymphoid tumor cells. It has been shown previously that BALB/c 3T3 cells transformed in vitro with polyoma virus (PyV) do not express Fc gamma RII but acquire the expression of this receptor following an in vivo passage in syngeneic mice. The specific Fc gamma RII transcript present in tumor cells was identified in this report as Fc gamma RIIB I (BI). In order to determine whether or not the ectopically expressed Fc gamma RII plays a role in the progression of these transformed cells, PyV-transformed 3T3 cells were transfected with BI-cDNA. The BI transfected cells were tested for their ability to form local tumors in syngeneic mice, as compared to transfected cells which express the co-transfecting neomycine resistance (neores) DNA alone or together with the lacZ gene. Fc gamma RIIB I expressors exhibited a significantly higher tumorigenic phenotype than FcR-negative controls, though both types of cells exhibited the same growth curve in vitro. The ability of Fc gamma RIIB I to act as a potentially tumorgenicity-enhancing factor was also demonstrated as Fc gamma RII was expressed by tumor cells, originating from inoculated Fc gamma RIIB I-transfected cells, or from inoculation of a mixture of receptor-positive and -negative cells. B I-expressing cells dominated the tumor-cell population over non-expressors. This dominance strengthened the hypothesis that FcR plays a role in tumor progression in vivo.

FcR may function as a progression factor of nonlymphoid tumors

Tumor progression is a multistep process involving genetic and epigenetic changes in a transformed clone. Some of these changes may be induced by host factors which may also select for transformed cellular variants with a high ability to survive and propagate. In this article we review studies showing that receptors for the Fc portion of IgG may be expressed on cells from human or animal tumors of nonlymphoid origin. We also review data demonstrating that at least with respect to cells transformed in vitro with Polyoma virus, transformation per se is not sufficient for the induction of Fc receptor expression. We also summarize preliminary data showing that Fc receptor expression is causally involved in conferring a high malignancy phenotype upon transformed cells. Possible mechanisms to explain these observations are discussed.

Possibilities of interference with the immune system of tumor bearers by non-lymphoid Fc gamma RII expressing tumor cells

The ectopic expression of Fc gamma RII by PyV transformed 3T3 cells derived from tumors of long latency has been established. It was suggested that this expression is one of several changes conferring upon the cells an increased capacity for survival. We found that in one case cells expressing a very high level of Fc gamma RII had also a very high metastatic phenotype as compared to FcR negative cells. Direct evidence that Fc gamma RIIbl functions as a progression factor was provided by transfection experiments. The transfected gene conferred an increased malignancy and invasive phenotype upon PyV or c-Ha-ras transformed cells. In the present study we tested the possibility that Fc gamma RII expressing tumor cells could interfere with the immune system. The following subjects were investigated: 1) The ability of Fc gamma R on the tumor cells to bind the ligand and/or release IBF. 2) The effect of a local accumulation of ligand and/or IBF (assumed to take place in situ in the tumor) on Fc gamma RII expressing T cells. It was found that both tumor-derived receptor positive and beta l transfected PyV transformed cells were capable of binding aggregated mouse IgG. The binding of bivalent ligand was followed by an increase in membrane Fc gamma RII expression. Also both types of cells were capable of releasing IBF. We then tested the possibility that a local accumulation of IgG within the tumor could effect Fc gamma R expressing T cells. It was found that aggregated mouse IgG (as well as IgGl) could stimulate the proliferation of the T cell hybridoma (T2D4) and other Fc gamma RII expressing T cells. We also found that the expression of beta Fc gamma RII specific mRNA peaked at the logarithmic phase of T2D4 cultures, in parallel with their maximal potential to release IBF. Several pathways for interference with the immune system are suggested.

Some cellular and molecular characteristics of high and low tumorigenicity variants of polyoma-virus transformed cells

We analyzed several cellular and molecular properties of BALB/c 3T3 cellular clones transformed in vitro with polyoma virus and exhibiting a high or low tumorigenicity phenotype. We also analyzed the same clones after a single in vivo passage in syngeneic mice. This passage invariably induced and/or selected variants exhibiting a very high tumorigenicity phenotype. BALB/c mice bearing tumors induced by the inoculation of the above cells, regardless of their tumorigenicity phenotype, have a lower number of L3T4 positive splenocytes than appropriate controls. The response to Con-A of spleen cells from such mice was also suppressed. Concomitantly, an increase in Mac-1 positive splenocytes could be measured. In spite of the non-specific suppression of T cells, spleen cells from tumor-bearers showed a specific proliferative response to polyoma antigens. Molecular analysis of polyoma transformed cells showed no differences between the various cells with respect to integration of the polyoma viral genes or with respect to src, myc and fos proto-oncogenes. In vitro maintained cells and in vivo passaged cells seemed to differ, however, in the content of polyoma middle T. Whereas polyoma virus transformed cells maintained only in culture never expressed low affinity receptors for IgG (Fc gamma RII), certain in vivo passaged cells did. This expression could be measured both at the protein and the mRNA level. Those in vivo passaged cells which expressed F alpha RII gave tumors following a long latency period. Ongoing experiments will indicate whether or not Fc gamma RII expression is linked to long latency of tumor development.

Rheumatoid factor and Fc signaling: a tale of two Cinderellas

Signaling to lymphocytes depends not only upon the interaction of receptors with specific antigen, but also upon antigen nonspecific receptors which receive input from two classes of molecules, immunologically specific end products and lymphokines. These represent the central elements in the physiologic stimulation of immune responses to both self and foreign antigens. This review is dedicated primarily to describing the function of physiologically active receptors for end product which are central to end product feedback in normal immune responses. The emergence of autoimmunity as a pathologic process resultant from a defective end product signaling mechanism is described.