Epigenetic remodelling of DNA in cancer

DNA methylation regulates gene expression in normal cells. This epigenetic mechanism acts in at least two different ways: at global genomic level by targeting repetitive sequences distributed among the whole genome (LINEs, SINEs, satellite DNA, transposons) and at local level by targeting CpG islands in promoter regions. Both epigenetic mechanisms are involved in the carcinogenetic process; however, different evidences suggest that promoter hypermethylation occurring in genes involved in cell-cycle regulation, DNA repair, cell signalling, transcription and apoptosis likely plays a prominent role. Opposite to genetic defects DNA hypermethylation is a reversible process that can be handled through "epigenetic drugs" in a wide spectrum of tumors. Along this line, recent data have demonstrated the ability of DNA hypomethylating agents to up-regulate and/or induce the expression of genes silenced by promoter hypermethylation in cancer. Particularly relevant seems the ability of these drugs to modulate the expression of genes coding for molecules crucial for tumor immunogenicity and immune recognition of neoplastic cells by host's immune system, such as Cancer Testis Antigens, HLA class I molecules, costimulatory molecules. These evidences, coupled to the well-known cytotoxic, pro-apoptotic, and differentiating activities of epigenetic drugs, encourage to design and to develop new therapeutic strategies able to circumvent the immune escape of neoplastic cells and to potentiate the efficacy of immunotherapy in cancer patients. This review will provide an update on the most recent information about aberrant DNA methylation in cancer and on innovative therapeutic strategies of "epigenetic remodelling" of human malignancies, with particular attention to the immunologic and immunotherapeutic potential of this approach.

A large first-line, randomized, dose-finding, phase II study on thymosin-alpha 1 (T-alpha 1) plus dacarbazine (DTIC) with or without interferon-alpha (IFN-alpha) compared to DTIC plus IFN-alpha in stage IV melanoma. Tumor response and survival results

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Background: Thymosin alpha 1 is an immunomodulatory compound that promotes T cell maturation and upregulates T cell response. Ta1 showed clinical potential benefit in a previous pilot study in melanoma patients. Methods: Phase II, randomized, stratified, open-study testing different doses of Ta1 in association with DTIC and IFNa, as first-line therapy in stage IV melanoma patients (AJCC 2001) without brain metastases. The primary endpoint is tumor response and secondary overall survival. Four arms were initially planned: DTIC + IFNa + 1.6 or 3.2 mg Ta1, DTIC + 3.2 mg Ta1, and DTIC + IFNa (control group). A dose-response effect in a preliminary analysis on 142 patients led to the addition of a fifth arm with DTIC + IFNa + 6.4 mg Ta1. Ninety-five patients were allocated to each arm to test the hypothesis that P0 = 0.05 vs the alternative hypothesis that P1 = 0.15 (alpha = 5%, within-group statistical analysis, power = 95%). The five groups were analyzed independently one from the other, nine responses representing the minimal threshold for rejecting the null hypothesis Patients received DTIC (800 mg/m2) iv on day 1, Ta1 (1.6, 3.2 or 6.4 mg) sc on days 8–11 and 15–18, and IFNa (3 MIU) sc on days 11 and 18 during 28d cycles. Tumor response was evaluated every two cycles according to RECIST criteria, utilizing a central review. Results: Data of 483 pts (62% M1c; 25% M1b; 13% M1a) from 64 European sites are given in the table . Thirteen and 10 confirmed responses were observed for the DTIC+ 3.2 mg Ta1 and DTIC+ IFNa + 3.2 mg Ta1 arms (vs 5 in the control group) thus rejecting the null hypothesis that P0 = 0.05. No additional toxicity with the addition of Ta1 was observed. Conclusions: These results suggest a potential survival advantage with the addition of Ta1 to ‘standard‘ treatment of stage IV melanoma patients. The role of Interferon alpha in this therapeutic association is debatable.

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Primary hepatic epithelioid hemangioendothelioma progressively responsive to interferon-alpha: is there room for novel anti-angiogenetic treatments?

Primary hepatic epithelioid hemangioendothelioma (HEH) is a rare, low-grade malignant neoplasm of endothelial origin, with an unpredictable clinical course and prognosis. No standard therapeutic strategies are still available for HEH, due to the infrequency of the disease and to its variable natural history that limit the identification of the most effective treatment. In the absence of metastatic disease, surgical resection or liver transplantation represent the treatment of choice for HEH, while several antineoplastic agents have been proposed in the presence of metastatic nonresectable disesase. Herein, we describe the biological characterization and the clinical course of a primary HEH progressively responsive to treatment with intermediate doses of interferon-alpha (IFN)-alpha2a. Furthermore, based on the newly-identified expression of endoglin (CD105) on HEH, we discuss the clinical potential of novel anti-angiogenetic approaches to the disease.

Malignant mesothelioma in 2004: How advanced technology and new drugs are changing the perspectives of mesothelioma patients. Highlights from the VIIth Meeting of the International Mesothelioma Interest Group

Malignant mesothelioma (MMe) is a seemingly uncommon tumour whose incidence has in fact increased steadily and progressively over the last 30 years. Indeed, an actual "epidemic" is expected in the next 20 years, with over 1300 new cases a year till 2020 at least. Despite unquestionable improvement in the diagnostic methods at our disposal and the availability of new treatment strategies, the prognosis of MMe patients remains dramatically poor. For all the above reasons, translational research is the key to success; indeed, ever increasing knowledge of the molecular mechanisms underlying MMe pathogenesis could lead (and is actually leading) to new, hopefully more active, treatment options. To foster discussion among investigators working in this field, and to exchange different viewpoints concerning the newest advances in MMe pathogenesis and treatment, the VII International Mesothelioma Interest Group (IMIG) meeting was held in Brescia (Italy) between 24 and 26 June 2004 in cooperation with the Italian Group for the Study and Therapy of MMe (GIMe). The aim of this report is to summarize the most significant advances in the different disciplines applied to MMe presented and discussed during the IMIG meeting and how these advances will be changing the perspective of patients with MMe.

Emerging role of endoglin (CD105) as a marker of angiogenesis with clinical potential in human malignancies

Angiogenesis is crucial for tumor development and progression, and antiangiogenetic therapy represents a promising approach for cancer treatment. Thus, the in-depth understanding of the molecular mechanism(s) regulating angiogenesis, together with the characterization of molecules expressed by endothelial cells and involved in distinct steps of the angiogenetic process, will greatly improve the design of new and more effective therapeutic strategies in human malignancies. Endoglin (CD105), a cell membrane glycoprotein predominantly expressed on cellular lineages within the vascular system, and over-expressed on proliferating endothelial cells, is involved in blood vessels development and represents a powerful marker of neovascularization. CD105 binds several factors of the Transforming Growth Factor (TGF)-beta superfamily, a pleiotropic cytokine that regulates different cellular functions including proliferation, differentiation and migration. In human malignancies of different histotype, CD105 is highly expressed on endothelial cells of both peri- and intra-tumoral blood vessels, while it is weakly expressed or absent on neoplastic cells. This unique tissue distribution strongly suggests for a prognostic, diagnostic and therapeutic potential of CD105 in neoplastic diseases. In this review we will summarize the structural and functional features of CD105, as well as its tissue distribution in normal and neoplastic tissues. Furthermore, the practical implications of CD105 in human malignancies will also be discussed.

Endoglin (CD105): a target for anti-angiogenetic cancer therapy

Targeting of tumor vasculature is a promising strategy for cancer treatment. Among endothelial cell markers, Endoglin, a cell membrane glycoprotein, is emerging as an attractive therapeutic target on angiogenetic blood vessels, and it currently represents a powerful marker to quantify tumor angiogenesis. In normal human tissues, Endoglin is weakly expressed on erytroid precursors, stromal cells and activated monocytes, whereas it is strongly expressed on proliferating endothelial cells. In human neoplasias of different histotype, Endoglin is mainly present on endothelial cells of both peri- and intra-tumoral blood vessels, while it is weakly expressed or absent on neoplastic cells. Endoglin is an accessory component of the receptor complex of Transforming Growth Factor (TGF)-beta, a pleiotropic cytokine that modulates angiogenesis by the regulation of different cellular functions including proliferation, differentiation and migration. Interestingly, the over-expression of Endoglin antagonizes several cellular responses to TGF-beta1, while its down-regulation potentiates cellular responses to TGF-beta1. In animal models, administration of radiolabeled anti-Endoglin monoclonal antibodies (mAb) efficiently images primary tumors, and naked or conjugated anti-Endoglin mAb suppress angiogenesis and tumor growth. In this review we will summarize the complex of experimental evidences pointing to Endoglin as a vascular target to design innovative bioimmunotherapeutic strategies in human neoplasias.

Cancer testis antigens expression in mesothelioma: role of DNA methylation and bioimmunotherapeutic implications

Recent evidences suggest that malignant mesothelioma may be sensitive to immunotherapy; however, little is known about malignant mesothelioma-associated tumour antigens. Focusing on cancer/testis antigens, the expression of well-characterised immunogenic tumour-associated antigens was investigated in malignant mesothelioma cells. At variance with MAGE-4 and NY-ESO-1, malignant mesothelioma cells frequently expressed MAGE-1, -2 and -3, GAGE 1-2, GAGE 1-6, SSX-2 and SSX 1-5, and distinct malignant mesothelioma cells concomitantly expressed at least four cancer/testis antigens. Additionally, the tumour-associated antigens RAGE-1 was expressed at high levels in both benign and malignant mesothelial cells. Lastly, treatment with the DNA hypomethylating agent 5-aza-2'-deoxycytidine induced and up-regulated the expression of the cancer/testis antigen examined in malignant mesothelioma cells. Overall, these findings strongly suggest that cancer/testis antigens-based immunotherapy may represent a suitable therapeutic approach to malignant mesothelioma, and foresee the clinical use of 5-aza-2'-deoxycytidine to design new chemo-immunotherapeutic strategies in malignant mesothelioma patients.

Cancer therapies: basic and clinical perspectives in brain, prostate, and lung tumors: Naples, September, 24-27, 2000

A continuous flow of theoretical and practical information among basic research, diagnosis, and therapeutic innovation is a crucial process to achieve a timely and effective progress in defeating human cancer. According to this essential concept, the main objective of the Fourth Joint International Cancer Conference "Cancer Therapies: Basic and Clinical Perspectives in Brain, Prostate and Lung Cancer" has been of gathering together basic scientists and clinicians who represent scientific opinion leaders in their field, to present and discuss the most recent scientific achievements in basic and clinical perspectives, advanced diagnostic and therapeutic strategies, and molecular and cellular therapeutic approaches in brain, prostate, and lung cancer.

Endoglin: An accessory component of the TGF-beta-binding receptor-complex with diagnostic, prognostic, and bioimmunotherapeutic potential in human malignancies

Endoglin (CD105) is a cell membrane glycoprotein over-expressed on highly proliferating endothelial cells in culture, and on endothelial cells of angiogenetic blood vessels within benign and malignant tissues. CD105 binds several factors of the Transforming Growth Factor (TGF)-beta superfamily, and its over-expression modulates cellular responses to TGF-beta1. The complex of experimental findings accumulated in the last few years strongly indicate that CD105 is a powerful marker of angiogenesis, and that it might play a critical role in the pathogenesis of vascular diseases and in tumor progression. In this paper, we will review the structural, biological and functional features of CD105, as well as its distribution within normal and neoplastic tissues, emphasizing its foreseeable role as a molecular target for new diagnostic and bioimmunotherapeutic approaches in human malignancies.

Bioimmunotherapeutic targets on angiogenetic blood vessels in solid malignangies

Physiological angiogenesis is a tightly regulated process that occurs mainly during reproduction, development and wound healing. Although angiogenesis is a continuous process, different consecutive steps can be identified, including: i) release of pro-angiogenetic factors; ii) release of proteolytic enzymes; iii) endothelial cell migration, morphogenesis and proliferation. Angiogenesis is also a hallmark of malignant diseases, and an inverse correlation between tumor vascularity and survival was demonstrated. Thus, strategies aimed at interfering with tumor blood supply by targeting tumor vasculature, presently represent promising new approaches for the treatment of solid malignancies. In fact, at least 30 angiogenetic inhibitors, utilized alone or in combination with other therapeutic agents, are currently being tested in clinical trials in humans. In this paper, we will review current knowledges on selected molecules expressed by endothelial cells and involved in distinct steps of the angiogenetic process, that represent potential targets for bioimmunotherapeutic approaches in human malignancies.

Unbalanced expression of HLA-A and -B antigens: a specific feature of cutaneous melanoma and other non-hemopoietic malignancies reverted by IFN-gamma

Conflicting evidences suggested that levels of HLA-A and -B antigens expressed on normal and neoplastic cells of given individuals are genetically predetermined, or, on the other hand, regulated by molecular mechanisms generating the down-regulated expression of HLA-B antigens frequently observed on melanoma cells. In our study, we quantitated, both at the protein and mRNA level, the amounts of HLA-A and -B antigens constitutively expressed on 23 primary cultures of metastatic melanomas and on autologous peripheral blood mononuclear cells (PBMC). Flow cytometric analyses identified a significantly (p < 0.01) lower expression of HLA-B antigens on melanoma cell cultures but not on autologous PBMC. Consistently, lower amounts of HLA-B antigens mRNA were detected by RNase protection assay exclusively in neoplastic cells. This unbalanced expression of HLA-A and -B antigens was readily reverted by interferon (IFN)-gamma but not by the DNA hypomethylating agent 5-aza-2'-deoxycytidine in 4 melanoma cell cultures investigated. Significantly (p < 0.05) lower levels of HLA-B antigens were also detected on cells from solid malignancies of different histotypes but not on neoplastic cells from hemopoietic neoplasms; levels of HLA-B antigens were rapidly up-regulated by IFN-gamma exclusively on non-hemopoietic transformed cells. Together, these data strongly argue against a genetic predetermination of the amounts of HLA-A and -B antigens expressed on normal and neoplastic cells of distinct melanoma patients and suggest that constitutively low levels of HLA-B antigens are a specific feature of non-hemopoietic transformed cells that is controlled by common regulatory mechanism(s) and that is possibly shared by non-hemopoietic normal cells.

Overexpression of protectin (CD59) down-modulates the susceptibility of human melanoma cells to homologous complement

The clinical efficacy of therapeutic complement (C)-activating monoclonal antibodies (mAb) to melanoma-associated antigens can be impaired by the levels of expression of C-inhibitory molecules on neoplastic cells. Protectin (CD59) is a glycosylphosphatidylinositol (GPI)-anchored cell membrane glycoprotein, acting as terminal regulator of C cascade, which is heterogeneously expressed in melanomas and represents the main restriction factor of C-mediated lysis of melanoma cells. Thus, we investigated whether the overexpression of CD59 could influence the constitutive susceptibility of distinct melanoma cells to homologous C. Infection of CD59-positive Mel 100 and 70-W melanoma cells by a retroviral vector carrying the CD59 cDNA, significantly (P < 0.05) upregulated their constitutive expression of CD59, whereas it did not affect that of additional C-regulatory molecules. Transduced CD59 was entirely GPI-anchored and showed a molecular weight identical to native CD59. Additionally, higher amounts of soluble CD59 were detected in the conditioned media of CD59-transduced melanoma cells compared with parental cells. CD59-transduced melanoma cells, sensitized by the anti-GD3 disialoganglioside mAb R24, were significantly (P < 0.05) less susceptible to homologous C-lysis than were parental cells; this effect was fully reverted by the masking of CD59 with F(ab')(2) fragments of the anti-CD59 mAb YTH53.1. These results provide conclusive evidence demonstrating that absolute levels of CD59 expression regulate the susceptibility to homologous C of specific melanoma cells, and suggest an additional explanation for the poor clinical results obtained with C-activating mAb in the clinical setting.

Melanomas and melanoma cell lines do not express HLA-G, and the expression cannot be induced by gammaIFN treatment

HLA-G is an effective ligand of natural killer (NK) inhibitory receptors, HLA-G transcripts have been detected in several human tumors, and cytokines like gamma interferon (IFN) enable HLA-G molecules to be expressed. These findings are particularly upsetting in case of melanomas: IFN treatment is frequently included in melanoma therapeutic protocols, and downregulation of classical class I molecules occurs in nearly half of these tumors. Therefore, a melanoma cell downregulating classical class I and de novo expressing HLA-G, either constitutively or upon IFN treatment, is probably a stealthy target for the immune system, having inhibited both the cytotoxic T lymphocyte (CTL) and the NK activity. To elucidate this point we have investigated the expression of HLA-G molecules in 45 melanoma cell lines before and after gammaIFN treatment. Analysis was performed by immunofluorescence and flow cytometry, using the anti-HLA-G MoAbs 87G and G233, by Western blot, using the anti-HLA-G MEM/G1 MoAb and PAG1 antiserum, and by RT-PCR analysis. In addition, 8 melanoma tissues from patients free from therapy and 6 nevi were studied by immunohistochemistry using the 87G MoAb. No evidence was gathered of HLA-G expression, neither constitutive nor, in cell lines, after gammaIFN treatment. We therefore conclude that HLA-G expression is an uncommon event in melanomas, and that a therapy including IFNs cannot harm the patient by inducing the de novo expression of HLA-G molecules at least in its G1 isoform.

Emerging role of protectin (CD59) in humoral immunotherapy of solid malignancies

Over the past two decades, complement (C)-activating monoclonal antibodies (mAb), directed to specific tumor-associated antigens (TAA), have been extensively utilized for passive immunotherapy of solid tumors of different histology. However, the clinical outcome of this therapeutic approach has been substantially disappointing; antigenic heterogeneity of neoplastic cells and their limited accessibility by therapeutic mAb, have been provided as substantial explanations for the poor clinical results obtained. Nevertheless, in light of the recent advances in the knowledge of the mechanisms regulating C-activity, it begins to be evident that membrane and soluble C-inhibitory proteins play a key role in the protection of neoplastic cells from C-attack, providing additional insights on biological features of transformed cells that may hamper the clinical efficacy of humoral immunotherapy. Among C-regulatory proteins investigated, this review will focus on protectin (CD59) that represents the main restriction factor of C-susceptibility of neoplastic cells from solid malignancies. In view of the functional role of CD59, we will describe its tissue distribution and biological features in malignant neoplasms; major emphasis will be given to cutaneous melanoma, in which the C-regulatory role of CD59 has been extensively investigated, and clinical approaches of humoral immunotherapy have been implemented. According to the available data, the foreseeable strategies to improve the therapeutic efficacy of humoral immunotherapy of solid malignancies will be discussed.

New dimensions in cancer biology and therapy

The most successful and productive approach to defeat cancer relies on highly integrated and interchanging cooperation between basic research, diagnosis, and therapeutic innovation. Nevertheless, much remains to be done to achieve a consistent and continuous flow of theoretical and practical information among scientists actively involved in these equally relevant fields. The major objective of the International Conferences, "New Dimensions in Cancer Biology and Therapy," has been identified in gathering together basic scientists and clinicians who represent scientific leaders in their field, whose working efforts are focused on specific human malignancies. Thus, in pursuit of this well-defined goal, the third edition of the Conference has focused on human immunodeficiency virus (HIV) and cancer, cutaneous melanoma, and colorectal carcinoma, which are ideal clinical examples for innovative diagnostic and therapeutic intervention, as well as optimal models to unveil new mechanisms of tumor pathogenesis.

Endoglin is a suitable target for efficient imaging of solid tumors: in vivo evidence in a canine mammary carcinoma model

Increasing evidence suggests that endoglin (CD105) is a new powerful marker of neovascularization in solid malignancies; thus, using breast cancer as a model, we investigated whether targeting of CD105 by monoclonal antibody (mAb) MAEND3 can be used for in vivo imaging of solid tumors. Immunohistochemistry and flow cytometry identified differential expression of CD105 on breast cancer and endothelial cells; in fact, neoplastic cells were weakly and rarely stained by mAb MAEND3, which in contrast, strongly and invariably stained blood vessel endothelia within the breast adenocarcinomas investigated and cultured endothelial cells. Moreover, in contrast to CD31, which currently represents the reference marker to assess angiogenetic activity, CD105 expression was highest in semiconfluent and actively proliferating endothelial cells, and it progressively decreased as cells reached tight confluency and low [3H]thymidine uptake. i.v. administration of 18 MBq of 125I-labeled mAb MAEND3 efficiently imaged spontaneous mammary adenocarcinomas in two dogs; the uptake of radiolabeled mAb was rapid and intense because tumor: background ratios of 8.2:1 and 9.3:1 were reached 8 h after mAb administration, in the absence of immediate and/or long-term clinical side effects. Altogether, our present data suggest that targeting of CD105 on tumor-associated blood vessels may represent a new strategy for in vivo imaging of solid malignancies, regardless of their histological origin.

Vaccination of melanoma patients with interleukin 4 gene-transduced allogeneic melanoma cells

A human melanoma line genetically modified to release interleukin 4 (IL-4) was utilized to immunize advanced melanoma patients in order to elicit or increase a specific anti-melanoma immune response, which may affect distant lesions. Twelve metastatic melanoma patients were injected subcutaneously at least three times with 5 x 10(7) IL-4 gene-transduced and irradiated allogeneic melanoma cells per dose. Both systemic and local toxicities were mild, consisting of transient fever and erythema, swelling, and induration at the vaccination site. Two mixed but not complete or partial clinical responses were recorded. To assess the immune response of vaccinated patients, both serological and cell-mediated activities were evaluated. Antibodies to alloantigens could be detected in 2 of 11 patients tested. Mixed tumor-lymphocyte cultures were performed, utilizing autologous and allogeneic HLA-A2-matched melanoma lines as simulators and targets. A significant increase in IFN-gamma release was detected in 7 of 11 cases when postvaccination lymphocytes were stimulated by the untransduced allomelanoma cells. However, induction of a specific recognition of autologous melanoma cells by PBLs was obtained after vaccination in only one of six cases studied. This response involved the melanoma peptide Melan-A/MART-1(27-35) that was recognized in an HLA-A2-restricted fashion. These results indicate that vaccination with allogeneic melanoma cells releasing IL-4 locally can expand a T cell response against antigen(s) of autologous, untransduced tumor, although in a minority of patients.

Differential levels of soluble intercellular adhesion molecule-1 (sICAM-1) in early breast cancer and benign breast lesions

To date, no soluble markers can discriminate benign from malignant breast lesions; therefore, to assess the diagnostic potential of circulating intercellular adhesion molecule-1 (sICAM-1), serum concentrations of sICAM-1 were quantitated in 230 consecutive patients that underwent surgery for breast neoplasias, utilizing an enzyme-linked immunosorbent assay. Histological diagnosis revealed that 177 patients had breast cancer and 53 had a benign breast disease. In the cancer patient group, 90 subjects had pT1 tumors without (pT1N0M0, n = 46) or with (pT1N1M0, n = 41; pT1N2M0, n = 3) regional lymph node metastases. Mean levels of serum sICAM-1 of patients with pT1 breast cancer, without or with regional lymph node involvement, were significantly (P < 0.05) higher than those of patients with benign breast lesions and of 49 age-matched control subjects. Elevated levels of serum sICAM-1 were detected in 27/90 (30%) pT1 breast tumors and in 1/53 (2%) benign breast lesions; thus, among subjects with high levels of sICAM-1, 96% had breast cancer. No significant correlation was found between levels of serum sICAM-1 and breast cancer progression. These observations, altogether, suggest that in the presence of a suspicious breast neoplasm the quantitative analysis of serum sICAM-1 can orient clinical diagnosis towards malignancy.

The overlooked "nonclassical" functions of major histocompatibility complex (MHC) class II antigens in immune and nonimmune cells

Besides their "classical" antigenic peptide-presenting activity, major histocompatibility complex (MHC) class II antigens can activate different cellular functions in immune and nonimmune cells. However, this "nonclassical" role and its functional consequences are still substantially overlooked. In this review, we will focus on these alternative functional properties of MHC class II antigens, to reawaken attention to their present and foreseeable immunobiologic and pathogenetic implications. The main issues that will be addressed concern 1) the role of MHC class II molecules as basic components of exchangeable oligomeric protein complexes with intracellular signaling ability; 2) the nonclassical functions of MHC class II antigens in immune cells; 3) the pathogenetic role of MHC class II antigens in inflammatory/autoimmune and infectious disease; and 4) the functional role of MHC class II antigens in solid malignancies.

Prolonged upregulation of the expression of HLA class I antigens and costimulatory molecules on melanoma cells treated with 5-aza-2'-deoxycytidine (5-AZA-CdR)

The immunogenic potential of melanoma cells and their recognition by the host's cytotoxic cells depends on the presence and on the level of expression of human leukocyte antigen (HLA) class I antigens, costimulatory molecules and melanoma-associated antigens (MAA), on neoplastic cells. In this study, we demonstrate that the DNA hypomethylating agent 5-aza-2'-deoxycytidine (5-AZA-CdR), significantly (p < 0.05) enhanced the constitutive expression of HLA class I antigens, HLA-A1 and -A2 alleles, and of the costimulatory molecules intercellular adhesion molecule-1 and lymphocyte function-associated antigen-3, on a panel of 12 melanoma cells. This upregulation peaked at day 4, slowly decreased thereafter, and returned to baseline levels 32 days after the end of treatment. In addition, treatment with 5-AZA-CdR induced a persistent expression of MAGE-1 in Mel 275 melanoma cells; this was still detectable, by reverse transcriptase polymerase chain reaction, 60 days after the end of treatment. In contrast, 5-AZA-CdR did not affect the constitutive expression of the high molecular weight-MAA by the melanoma cells investigated. These observations, together with data obtained comparing the effect of 5-AZA-CdR with that of interferon-gamma, strongly suggest that 5-AZA-CdR may have prospective therapeutic implications in active and/or passive specific immunotherapy for human melanoma.

Pregnancy and malignant neoplasms of the head and neck

This paper, based on a literature review, deals with the occasional development of a head and neck neoplasm in the pregnant woman. This rare event makes for some challenging problems in patient management, insofar as the otolaryngologist is actually responsible for taking care of 2 patients -- the mother and her unborn child. In particular, 4 tumor types have figured prominently among those head and neck tumors arising in pregnant women: cancer of the larynx, cancer of the thyroid, malignant melanomas, and malignant lymphomas of the head and neck. Of these, the most common appear to be melanomas, followed by lymphomas, thyroid carcinomas, and, finally, laryngeal carcinomas. The thyroid tumors, lymphomas, and laryngeal carcinomas do not appear to behave more aggressively in pregnant than in nonpregnant patients; there is, however, some anecdotal evidence to suggest that melanomas in pregnant women may be more aggressive neoplasms than similar-stage tumors in nonpregnant women. One difficulty in treating any of these tumor types in this clinical setting is the limitation that may be imposed on the use of adjuvant therapy by the presence of the unborn child, which may put the attending physicians in the difficult position of balancing less aggressive therapy for the mother against the potential for harming the baby through use of toxic systemic therapy.

Structure, distribution, and functional role of protectin (CD59) in complement-susceptibility and in immunotherapy of human malignancies (Review)

Protectin (CD59) is a glycosyl-phosphatidylinositol-anchored cell membrane glycoprotein, ubiquitously expressed, though to a different extent, on benign and malignant cells. CD59 inhibits complement (C)-mediated lysis of target cells by preventing the formation of the membrane attack complex, in the terminal step of C-activation. Recent experimental evidence demonstrates that CD59 is the main restriction factor of C-mediated lysis of malignant cells of different histotype. Additionally, a soluble form of CD59, that retains its anchoring ability and functional properties, has been most recently identified in body fluids and in culture supernatants of different malignant cells. In view of its functional role, CD59 may protect neoplastic cells from C-mediated lysis, contributing to their escape from innate C-control and to tumor progression; additionally, the expression of CD59 by neoplastic cells may contribute to impair the therapeutic efficacy of C-activating monoclonal antibodies (mAb) directed to tumor-associated antigens. In the light of the functional role of CD59, this review focuses on the structural features, tissue distribution and regulation of the expression of CD59 in malignant tissues, and on the foreseeable application(s) of CD59 to improve the therapeutic efficacy of clinical approaches of humoral immunotherapy with C-activating mAb in human malignancies.