Th2-type immune response observed in healthy individuals to sonicate antigen prepared from the most prevalent Mycobacterium tuberculosis strain with single copy of IS6110

Different Mycobacterium tuberculosis strains operate different immune evasion strategies for their survival in the host. This mainly depends on the virulence of the strain and the host immune responses. The most virulent strains are actively involved in the transmission, widely spread in the community and induce differential immune responses. We evaluated the immune response of a sonicate antigen prepared from one predominant strain (S7) from M. tuberculosis harbouring a single copy of IS6110. Significant lymphoproliferative response against purified protein derivative from tubercle bacillus (PPD) and H37Rv antigens was observed in PPD positive normal individuals and tuberculosis patients. Interferon-gamma (IFN-gamma) levels against these antigens were significantly increased in normal individuals but not in tuberculosis patients. The antigen S7 showed marginal T-cell proliferation but did not induce IFN-gamma secretion in both groups. Conversely, it induced significantly high levels of cytokine interleukin 4 (IL-4) in normal individuals. The macrophage cytokines, IL-12 and tumour necrosis factor alpha (TNF-alpha), did not show S7 antigen specific stimulation. The intracellular cytokine further confirmed an increase in IL-4(+)/CD4+ T-cells and a decrease in IFN-gamma(+)/CD4+ T-cells upon stimulation. The antibody response showed an increase in IgG and IgA levels against this antigen in normal individuals. These observations suggest that antigen S7 modulates the immune response towards T helper cell type 2 by suppressing T helper cell type 1 protective immune response in PPD positive normal individuals. We speculate that some components of this sonicate antigen are associated with immunosuppressive response.     

Genetic determinants of immune-response to a polysaccharide vaccine for typhoid

Differences in immunological response among vaccine recipients are determined both by their genetic differences and environmental factors. Knowledge of genetic determinants of immunological response to a vaccine can be used to design a vaccine that circumvents immunogenetic restrictions. The currently available vaccine for typhoid is a pure polysaccharide vaccine, immune response to which is T-cell independent. Little is known about whether genetic variation among vaccinees associates with variation in their antibody response to a polysaccharide vaccine. We conducted a study on 1,000 individuals resident in an area at high-risk for typhoid; vaccinated them with the typhoid vaccine, measured their antibody response to the vaccine, assayed >2,000 curated SNPs chosen from 283 genes that are known to participate in immune-response; and analyzed these data using a strategy to (a) minimize the statistical problems associated with testing of multiple hypotheses, and (b) internally cross-validate inferences, using a half-sample design, with little loss of statistical power. The first stage analysis, using the first half-sample, identified 54 SNPs in 43 genes to be significantly associated with immune response. In the second-stage, these inferences were cross-validated using the second half-sample. First-stage results of only 8 SNPs (out of 54) in 7 genes (out of 43) were cross-validated. We tested additional SNPs in these 7 genes, and found 8 more SNPs to be significantly associated. Haplotypes constructed with these SNPs in these 7 genes also showed significant association. These 7 genes are DEFB1, TLR1, IL1RL1, CTLA4, MAPK8, CD86 and IL17D. The overall picture that has emerged from this study is that (a) immune response to polysaccharide antigens is qualitatively different from that to protein antigens, and (b) polymorphisms in genes involved in polysaccharide recognition, signal transduction, inhibition of T-cell proliferation, pro-inflammatory signaling and eventual production of antimicrobial peptides are associated with antibody response to the polysaccharide vaccine for typhoid. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s11568-010-9134-1) contains supplementary material, which is available to authorized users.     

Immunogenetic aspects of host immune response

The central role of histocompatibility leukocyte antigens (HLA) class II molecules in antigen presentation has received great attention in recent years, yet class I molecules have been defined as primarily functioning as a restriction element for cytotoxic T cell killing of virus-infected cells. Extensive clinical evidence, however, indicates that the HLA class I genes are strongly associated with nonseptic complications of enteric and genitourinary bacterial infections. Ninety percent of patients with Reiter's syndrome and reactive arthritis are positive for HLA-B27, yet the mechanism of disease susceptibility conferred by this gene remains obscure. Hypotheses concerning this interaction include (i) class I antigens functioning as receptors for microbial antigens; (ii) class I antigens expressing determinants that cross-react with microbial antigens; and (iii) class I genes controlling immunoregulatory functions that dictate qualitative differences in immune response to pathogenic organisms. These hypotheses await formal testing and hold great promise for understanding immunogenetic control of immune responses in general.     

Immune response to different fractions of Taenia solium cyst fluid antigens in patients with neurocysticercosis

The immunopathogenesis of neurocysticercosis (NCC) largely remains unknown. We analyzed the immune response to different fractions of Taenia solium cyst fluid antigens in patients with NCC. Lymphocytes were separated from 48 patients with NCC-related active epilepsy and 30 healthy controls. T. solium (isolated from pig muscles) antigens (crude lysate, CL; cyst wall, CW and cyst fluid, CF) at 20 μg/well concentrations were used to stimulate the cells in a lymphocyte transformation test (LTT). Only CF antigen stimulated cell proliferation significantly greater than control (p < 0.001), hence cyst fluid antigens were further studied. The CF antigens were electro-blotted on nitrocellulose membrane (NC), cut at 0.5 cm distance and particulate antigens were prepared. A total of 12 fractions, designated F1 to F12 according to molecular weight were tested in-vitro for LTT. After 72 h of stimulation by the different fractions, Th1 (IL-1β, TNF-α, IL-2) and Th2 (IL-4, IL-10) cytokine responses were determined in culture supernatants by ELISA. Low molecular weight fractions F1 through F4 (Mol. wt. < 25 kDa) were found to be potent inducers of cytokines. Fractions F1, F3 and F4 induced the production of Th1 (IL-1β, TNF-α, IL-2), whereas F2 induced the production of Th2 (IL-4 and IL-10) cytokine. The study shows that the low molecular weight fractions of CF antigens are immuno-dominant. Most of these fractions (F1, F3, F4) induce strong Th1 immune response except F2 which induces Th2 response. Further studies are needed to identify the different antigens present in these fractions to determine the molecules responsible for the immune response.     

Model system for study of cell interactions and mechanisms of immune response to T-independent antigens of type 2 in vitro

Cellular mechanisms of immune response to type 2 T-independent antigens (TI-2 antigens) are not fully elucidated up till now. In vitro system is the most convenient model for such studies. However, in vitro model requires relatively high cell density in the cultures. It hampers the study of minor lymphocyte subsets like CD5+ B-1 splenocytes, which play the main role in the immune response to TI-2 antigens. The use of cell mixtures of normal and immunodeficient congenic animals may help to resolve this problem. In this work, immune responses to TI-antigens of type 1 (TI-1 antigens) and to TI-2 antigens in vitro were studied in the mixtures of cells of normal (CBA) and congenic xid-mice (CBA/N). CBA/N mice lack CD5+ B-1 cells and do not respond to TI-2 antigens. Therefore, their splenocytes can be used as “filler” cells to create the optimal cell density in the cell cultures. Spleen and peritoneal cells of CBA mice and B-1 and B-2 lymphocytes isolated from peritoneum and spleen, respectively, were cultured in different proportions with CBA/N splenocytes with or without antigens. LPS and polyvinylpyrrolidone (PVP) were used as TI-1 and TI-2-antigens, respectively. Antibody- and immunoglobulin-forming cells (AFC and IFC, respectively) were determined by the ELISPOT method on the 4th day of cultivation. It was shown that CBA and CBA/N cells in mixed cell cultures retained their functional activity. Splenocytes of CBA mice responded to both TI-antigens. Splenocytes of CBA/N mice responded to TI-1 antigen (LPS) only. It means that in vitro B-1 cells play the main role in the immune response to TI-2 antigens, as they do in vivo. Thus, the developed model system can be used to study cellular mechanisms of immune response to TI-1 and TI-2 antigens in vitro.     

The cellular basis for viral-induced immunodeficiency: analysis by monoclonal antibodies

Viral infections are often associated with immunodeficiency states. Although T lymphocytes have been thought to suppress the host's response, the precise etiology remains unclear. Therefore, we characterized T lymphocytes from six patients during both acute and convalescent phases of infectious mononucleosis (IM) with monoclonal antibodies (titer, 10(-5) to 10(-7) to antigens restricted to the TH2- helper (T4) and TH2 suppressor (T5) T cell subsets as well as to a common T cell antigen (T3) and HLA-D related Ia antigens. It was found that during acute infectious mononucleosis, there is both activation and increase of suppressor T cells (T5+, Ia+ phenotype). Fuctionally, the acute IM lymphocytes suppress autologous T cell proliferation to antigens as well as pokeweed mitogen driven B cell immunoglobulin production. In contrast, convalescence is associated with a return to normal of T cell subsets and immune function. These results demonstrate that viral infections can preferentially activate a specific T cell subset and suppress the overall human immune response.     

Immunogenicity of Leishmania donovani iron superoxide dismutase B1 and peroxidoxin 4 in BALB/c mice: the contribution of Toll-like receptor agonists as adjuvant

In this study, we assessed the immune response of two Leishmania donovani recombinant proteins: iron superoxide dismutase B1 (SODB1) and peroxidoxin 4 (Pxn4) in BALB/c mice. Assessment of the immunogenicity of these proteins alone or combined with Toll-like receptor 9 (TLR-9) agonist (CpG ODN) or TLR-4 agonist (GLA-SE) showed that they elicit specific antibody as well as cytokine production in response to the respective antigen in vitro. The use of adjuvants augmented immunogenicity of these antigens and more importantly, skewed the immune response to a Th1-type. These results indicate that recombinant SODB1 and Pxn4 proteins are potential vaccine candidates when administered with appropriate adjuvants.     

Immunodominant Francisella tularensis antigens identified using proteome microarray

Stimulation of protective immune responses against intracellular pathogens is difficult to achieve using non-replicating vaccines. BALB/c mice immunized by intramuscular injection with killed Francisella tularensis (live vaccine strain) adjuvanted with preformed immune stimulating complexes admixed with CpG, were protected when systemically challenged with a highly virulent strain of F. tularensis (Schu S4). Serum from immunized mice was used to probe a whole proteome microarray in order to identify immunodominant antigens. Eleven out of the top 12 immunodominant antigens have been previously described as immunoreactive in F. tularensis. However, 31 previously unreported immunoreactive antigens were revealed using this approach. Twenty four (50%) of the ORFs on the immunodominant hit list belonged to the category of surface or membrane associated proteins compared to only 22% of the entire proteome. There were eight hypothetical protein hits and eight hits from proteins associated with different aspects of metabolism. The chip also allowed us to readily determine the IgG subclass bias, towards individual or multiple antigens, in protected and unprotected animals. These data give insight into the protective immune response and have potentially important implications for the rational design of non-living vaccines for tularemia and other intracellular pathogens.     

Cysteine proteases: destruction ability versus immunomodulation capacity in immune cells

Cysteine proteases (cathepsins) play a pivotal role in various physiological processes, as well as in several diseases. In the immune response, maturation of major histocompatibility class II (MHC II) molecules and processing of antigens for further presentation by MHC II is tightly linked to the enzymes of the endosomal/lysosomal system, of which cysteine proteases constitute a major proportion. Furthermore, the process of autophagy provides access for cytosolic antigens to proteolysis by lysosomal cathepsins and subsequent MHC II presentation. Other specific functions of proteolytic enzymes associated with the immune response, such as activation of granzymes by cathepsin C in T-lymphocytes, are introduced and covered in this review.     

Enhancement of Tumour-Specific Immune Responses In Vivo by ‘MHC Loading-Enhancer’ (MLE)

Background

Class II MHC molecules (MHC II) are cell surface receptors displaying short protein fragments for the surveillance by CD4+ T cells. Antigens therefore have to be loaded onto this receptor in order to induce productive immune responses. On the cell surface, most MHC II molecules are either occupied by ligands or their binding cleft has been blocked by the acquisition of a non-receptive state. Direct loading with antigens, as required during peptide vaccinations, is therefore hindered.

Principal Findings

Here we show, that the in vivo response of CD4+ T cells can be improved, when the antigens are administered together with ‘MHC-loading enhancer’ (MLE). MLE are small catalytic compounds able to open up the MHC binding site by triggering ligand-release and stabilizing the receptive state. Their enhancing effect on the immune response was demonstrated here with an antigen from the influenza virus and tumour associated antigens (TAA) derived from the NY-ESO-1 protein. The application of these antigens in combination with adamantane ethanol (AdEtOH), an MLE compound active on human HLA-DR molecules, significantly increased the frequency of antigen-specific CD4+ T cells in mice transgenic for the human MHC II molecule. Notably, the effect was evident only with the MLE-susceptible HLA-DR molecule and not with murine MHC II molecules non-susceptible for the catalytic effect of the MLE.

Conclusion

MLE can specifically increase the potency of a vaccine by facilitating the efficient transfer of the antigen onto the MHC molecule. They may therefore open a new way to improve vaccination efficacy and tumour-immunotherapy.     

Schistosoma mansoni antigens alter the cytokine response in vitro during cutaneous leishmaniasis

Schistosoma mansoni infection or associated products are able to down-modulate the type 1 CD4+ T cell inflammatory response characteristic of autoimmune diseases. In this study, we evaluated how S. mansoni antigens altered the immune response that was induced by the soluble Leishmania antigen (SLA) from cutaneous leishmaniasis (CL) patients. Cytokines were measured from the supernatants of peripheral blood mononuclear cell cultures stimulated with SLA. This was performed using the sandwich enzyme linked immunosorbent assay technique in the presence or absence of S. mansoni recombinant antigens Sm29, SmTSP-2 and PIII. The addition of S. mansoni antigens to the cultures resulted in the reduction of interferon gamma (IFN-γ) levels in 37-50% of patients. Although to a lesser extent, the antigens were also able to decrease the production of tumour necrosis factor-alpha (TNF-α). We compared patients that either had or did not have reduction in IFN-γ and TNF-α production in cultures stimulated with SLA in the presence of S. mansoni antigens. We found that there was no significant difference in the levels of interleukin (IL)-10 and IL-5 in response to S. mansoni antigens between the groups. The antigens used in this study down-modulated the in vitro proinflammatory response induced by SLA in a group of CL patients through a currently undefined mechanism.     

Genetic Variations in the Antibody Response in Young Bulls

Considerable evidence for the existence of a direct genetic control of the immune response has been presented during recent years. Experimental work with rodents are the main basis for this evidence. The first study on genetic variations in the antibody response was carried out by Gorer & Schütze (1938). Later Cinader (1960) published detailed considerations about the specificity and inheritance of the antibody response. In mice it has been demonstrated that a few dominant immune response (Ir) genes determine the ability to produce antibodies against certain specific antigens (McDevitt & Tyan 1968). The magnitude of the response is probably under the influence of polygenes, which are not associated with Ir genes. This theory is supported by selection for high and low antibody production in mice (Biozzi et al. 1972).     

Co-administration of GP96 and Her2/neu DNA vaccine in a Her2 breast cancer model

Heat-shock proteins have biochemical and immunological roles in chaperoning/signaling and activation of innate and adaptive immune responses, respectively. Their effect on the immune response is due to a phenomenon known as cross-priming of antigen, in which exogenous antigens are presented via MHC class I by antigen presenting cells. GP96 exerts adjuvant activity with some viral and bacterial antigens when applied in the form of a DNA vaccine. In this study, animals with Her2-expressing tumors were vaccinated by co-administration of GP96+ Her2/neu DNA vaccines. Analyses of the immune response, 2 weeks after the last immunization revealed decreased CD4+ CD25+ Foxp3+ naturally occurring regulatory T cells (Tregs) at the tumor site and increased IFN-γ/IL-4 level. Nevertheless, the graph of tumor size demonstrated a bi-phasic pattern in which partial control of tumor progression initially occurred, but finally its effectiveness was inversely affected by tumor size.     

Role of dendritic cells in the immune response to T-independent antigens of type 2

Dendritic cells (DC) belong to the most effective antigen-presenting cells. Their role in the presentation of thymus-dependent antigens and initiation of primary immune response is well known. At the same time, participation of DC in the immune response to T-independent antigens of type 2 (TI-2 antigens) is poorly explored. In this work, the ability of DC to initiate the immune response to a TI-2 antigen α(1→3) dextran (Dex) is investigated. Mouse bone-marrow-derived DC were generated by culturing the precursors with GM-CSF and then DC were pulsed by TI-2 antigens. The pulse induced DC activation, as was verified by an increase in the number of CD80 and CD86 positive cells. Uptake of FITC-labeled Dex was examined by flow cytometry. At a concentration of FITC-Dex of 100 μg/10⁶ cells, the number of DC binding the antigen (Ag) reached “plateau”. DC charged by TI-2 antigens were mixed with normal mouse splenocytes and cultivated in RPMI-1640 medium for 4 days. The numbers of antibody- and immunoglobulin-forming cells were determined by ELISPOT method. The mixtures of splenocytes and naïve DC not charged by the Ag were used as control. It was shown that the increase in the numbers of AFC and IFC under the influence of naïve DC did not exceed 20%. On the contrary, the addition of DC pulsed by the Ag increased specific immune response more than twofold. The data obtained point to the direct interactions of DC with TI-2 antigens. Pulsed DC present TI-2 antigens to mouse splenocytes and induce specific and polyclonal B-cell activation, i.e., possess immunostimulating activity.     

Taenia crassiceps antigens induce a Th2 immune response and attenuate injuries experimentally induced by neurotoxoplasmosis in BALB/c mice

Toxoplasma gondii is a pathogenic agent responsible for causing both systemic and local disease which elicits a typically pro-inflammatory, Th1 immune response. Taenia crassiceps antigen induces a Th2 immune response that immunomodulates Th1 based infections. Therefore the aim of this study was to evaluate whether T. crassiceps cysticerci antigens are able to modulate the inflammatory response triggered in experimental neurotoxoplasmosis (NT). BALB/c mice were inoculated with T. gondii cysts and/or cysticerci antigens and euthanized at 60 and 90 days after inoculation (DAI). The histopathology of the brains and cytokines produced by spleen cells culture were performed. The animals from the NT group, 90DAI (NT90), presented greater intensity of lesions such as vasculitis, meningitis and microgliosis and cytokines from Th1 profile characterized by high levels of IFN-gamma. While in the T. crassiceps antigens group, 60DAI, there were more discrete lesions and high levels of IL-4, a Th2 cytokine. In the NT co-inoculated with cysticerci antigens group the parenchyma lesions were more discrete with lower levels of IFN-gamma and higher levels of IL-4 when compared to NT90. Therefore the inoculation of T. crassiceps antigens attenuated the brain lesions caused by T. gondii inducing a Th2 immune response.     

An Mhc class I allele associated to the expression of T-dependent immune response in the house sparrow

The major histocompatibility complex (Mhc) encodes for highly variable molecules, responsible for foreign antigen recognition and subsequent activation of immune responses in hosts. Mhc polymorphism should hence be related to pathogen resistance and immune activity, with individuals that carry either a higher diversity of Mhc alleles or one specific Mhc allele exhibiting a stronger immune response to a given antigen. Links between Mhc alleles and immune activity have never been explored in natural populations of vertebrates. To fill this gap, we challenged house sparrows (Passer domesticus) with two T-dependent antigens (phytohemagglutinin and sheep red blood cells) and examined both primary and secondary immune responses in relation to their Mhc class I genotypes. The total number of Mhc alleles had no influence on either primary or secondary response to the two antigens. One particular Mhc allele, however, was associated with an increased response to both antigens. Our results point toward a contribution of the Mhc, or of other genes in linkage disequilibrium with the Mhc, in the regulation of immune responses in a wild animal species.     

Quantitative association tests of immune responses to antigens of Mycobacterium tuberculosis: a study of twins in West Africa.

There is now considerable evidence that host genetic factors are important in determining the outcome of infection with Mycobacterium tuberculosis (MTB). The aim of this study was to assess the role of several candidate genes in the variation observed in the immune responses to MTB antigens. In-vitro assays of T-cell proliferation, an in-vivo intradermal delayed hypersensitivity response; cytokine and antibody secretions to several mycobacterial peptide antigens were assessed in healthy, but exposed, West African twins. Candidate gene polymorphisms were typed in the NRAMP1, Vitamin D receptor, IL10, IL4, IL4 receptor and CTLA-4 genes. Variants of the loci IL10 (-1082 G/A), CTLA-4 (49 A/G) and the IL4 receptor (128 A/G) showed significant associations with immune responses to several antigens. T-cell proliferative responses and antibody responses were reduced, TNF-alpha responses were increased for subjects with the CTLA-4 G allele. The T-cell proliferative responses of subjects with IL10 GA and GG genotypes differed significantly. IL4 receptor AG and GG genotypes also showed significant differences in their T-cell proliferative responses to MTB antigens. These results yield a greater understanding of the genetic mechanisms that underlie the immune responses in tuberculosis and have implications for the design of therapeutic interventions.     

Immunoreactivity of five antigens of Mycobacterium tuberculosis in patients attending a public health care facility in an area with high endemicity for TB

The objective of this study was to evaluate people attending a primary health clinic in Rio de Janeiro, Brazil for immunoreactivity to five Mycobacterium tuberculosis antigens, as these antigens are markers of immune response and factors associated with active TB. The serum antibody titers of different categories of patients (defined by microbiological and radiological characteristics and by response to therapy on follow‐up) to 38 kDa, 16 kDa, MPT64, ESAT‐6 and MT10.3 antigens were determined blind with ELISA. Positive tests to each antigen were defined with ROC analysis. OR were calculated for factors associated with humoral response in patients with active TB. A total of 201 patients underwent serological testing. Patients with confirmed active TB responded more frequently to MPT64 (44%), 16 kDa (37.7%) and 38 kDa (36.1%). ESAT‐6 and MT10.3 were also able to distinguish people in TB groups from controls. TB infected subjects responded less frequently to ESAT‐6 and MT10.3 (3.7% and 11%, respectively). Sensitivity and specificity to all antigens combined were 58.4% and 60.7%, respectively. Reactivity to 38 kDa and to MPT64 was more likely among alcohol users OR 2.61 (95%CI;1.05–6.94) and OR 3.27 (95%CI;1.33–8.15), respectively. 16 kDa antigen elicited a more protective response among smokers, OR 0.29 (95%CI; 0.10–0.83). It was concluded that reactivity to all antigens tested represented markers of active disease. ESAT‐6 and MT10.3 could not be identified as markers of TB infection in this community. Sensitivity was higher to all antigens combined, but at a cost of lower specificity. Interestingly, among factors associated with positive immunoreactivity, alcohol use and smoking seem to polarize the humoral response in different directions. This finding deserves further investigation.     

Immunopathology of schistosomiasis

Waterborne parasitic diseases plague tropical regions of the world with the development of water resources often increasing transmission. Skin-penetrating cercariae (infectious stages of schistosome parasites) mature within their mammalian host, form sexual pairs and produce several hundred eggs per day. Many eggs are swept within the circulation and in the case of Schistosoma mansoni and S. japonicum, become lodged within hepatic sinusoids, invoking a fibrotic granulomatous response. Animal studies have identified a moderate type 1 helper (Th1) response to parasite antigens; however, a robust Th2 response to egg-derived antigens dominates and propagates fibrogenesis within the liver. Elegant T helper cell polarization studies have highlighted that critical control of Th1, Th2 and interleukin (IL)-17-secreting lymphocytes is necessary to prevent severe liver pathology. Alternatively activated macrophages develop in the Th2 milieu and upregulate Fizz1, Ym-1 and Arg-1. The possible contribution of macrophages to fibrogenesis and their role in immune regulation are discussed. Within the liver, natural (CD4(+)CD25(+) Forkhead box protein 3 (Foxp3)(+)) and inducible (CD4(+)Foxp3(-)) Treg's are recruited, providing an essential regulatory arm to stabilize the immune response and limit immunopathology. This review ties together current thinking of how the granulomatous response develops, causing much of the associated immunopathology, with extensive discussions on how regulatory cells and cytokine decoy receptors serve to limit the extent of immune-mediated pathology during schistosomiasis.     

In situ T cells in melanoma

During the past decade new insights have been gained into the role of T lymphocytes in the host's immune response to cancer in general and to melanoma in particular. Several melanoma-associated antigens (MAA) recognized by T cells have been characterized, and a number of HLA class I- and class II-restricted peptides have been identified. These antigens can be divided into three different groups: tumor-associated testis-specific antigens, melanocyte differentiation antigens, and mutated or aberrantly expressed antigens. These proteins give rise to several antigenic peptides. The number of known melanoma-associated peptides that can induce killing by cytotoxic T-lymphocytes (CTL) exceeds 30 and is still increasing. In line with these findings, clinical data indicate that the immune system is essential in the control of tumor growth. A brisk infiltration of lymphocytes is associated with a favorable prognosis, and complete or partial regression of primary melanoma occurs quite frequently. Furthermore, immunomodulatory therapies have accomplished complete or partial tumor regression in a number of patients. However, the immune response is in most cases inadequate to control tumor growth as tumor progression often occurs. Hence, the coexistence of a cellular immune response in melanoma lesions, demonstrated by the presence of clonally expanded T cells, remains a major paradox of tumor immunology. In the present paper we review current knowledge regarding tumor infiltrating lymphocytes (TIL) in melanoma and discuss possible mechanisms of escape from immune surveillance. Received: 20 March 1999 / Accepted: 3 March 1999