mRNA: A Versatile Molecule for Cancer Vaccines.

mRNA vaccines are finally ready to assume their rightful place at the forefront of nucleic acid- based vaccines. Major achievements within the last two decades have turned this highly versatile molecule into a safe and very attractive pharmaceutical platform that combines many positive attributes able to address a broad range of diseases, including cancer. The simplicity of mRNA vaccines greatly reduces complications generally associated with the production of biological vaccines. Intrinsic costimulatory and inflammatory triggers in addition to the provision of the antigenic information makes mRNA an all- in-one molecule that does not need additional adjuvants and that does not pose the risk of genomic integration. Clinical studies in various cancer types are moving forward and promising results with favorable clinical outcome are awaited. This review will recapitulate conceptual, mechanistic and immune-related features of this highly versatile molecule, elucidate how these features have been addressed in the past, and how comprehensive understanding can foster further optimization for broad application possibilities in cancer treatment.

Critical issues for successful immunotherapy in Alzheimer's disease: development of biomarkers and methods for early detection and intervention.

Over the last 10 years, promising data has emerged from both animal and human studies that both active immunization with amyloid-beta (Abeta) as well as passive immunization with anti-Abeta antibodies offer promise as therapies for Alzheimer's disease (AD). Data from animal models suggests that antibodies to Abeta through several mechanisms can decrease Abeta deposition, decrease Abeta -associated damage such as dystrophic neurite formation, and improve behavioral performance. Data from human studies suggests that active immunization can result in plaque clearance and that passive immunotherapy might result in slowing of cognitive decline. Despite this, a recent analysis from a phase I trial that involved active immunization with Abeta42, while not powered to determine efficacy, suggested no large effect of active immunization despite the fact that plaque clearance was very prominent in some subjects. An important issue to consider is when active or passive immunization targeting Abeta has the chance to be most effective. Clinico-pathological and biomarker studies have shown that in terms of the time course of AD, Abeta deposition probably begins about 10-15 years prior to symptom onset (preclinical AD) and that tau aggregation in tangles and in neurites does not begin to accelerate and build up in larger amounts in the neocortex until just prior to symptom onset. By the time the earliest clinical signs of AD emerge, Abeta deposition may be close to reaching its peak and tangle formation and neuronal cell loss is substantial though still not at its maximal extent. Since immunization targeting Abeta does not appear to have major effects on tangle pathology, for immunization to have the most chance for success, performing clinical trials in individuals who are cognitively only very mildly impaired or even in those with preclinical AD would likely offer a much better chance for success. Current work with AD biomarkers suggests that such individuals can now be identified and it seems likely that targeting this population with immunization strategies targeting Abeta would offer the best chance of success.

Next generation of immunotherapy for melanoma.

PURPOSE: Immunotherapy has a long history with striking but limited success in patients with melanoma. To date, interleukin-2 and interferon-alfa2b are the only approved immunotherapeutic agents for melanoma in the United States. DESIGN: Tumor evasion of host immune responses, and strategies for overcoming tumor-induced immunosuppression are reviewed. Several novel immunotherapies currently in worldwide phase III clinical testing for melanoma are discussed. RESULTS: The limitations of immunotherapy for melanoma stem from tumor-induced mechanisms of immune evasion that render the host tolerant of tumor antigens. For example, melanoma inhibits the maturation of antigen-presenting cells, preventing full T-cell activation and downregulating the effector antitumor immune response. New immunotherapies targeting critical regulatory elements of the immune system may overcome tolerance and promote a more effective antitumor immune response. These include monoclonal antibodies that block the cytotoxic T lymphocyte-associated antigen 4 (CTLA4) and toll-like receptor 9 (TLR9) agonists. Blockade of CTLA4 prevents inhibitory signals that downregulate T-cell activation. TLR9 agonists stimulate dendritic cell maturation and ultimately induce a more effective immune response. These approaches have been shown to stimulate acute immune activation with concomitant appearance of transient adverse events mediated by the immune system. The pattern and duration of immune responses associated with these new modalities differ from those associated with cytokines and cytotoxic agents. In addition, vaccines are being developed that may ultimately target melanoma either alone or in combination with these immunomodulatory therapies. CONCLUSION: The successes of cytokine and interferon therapy of melanoma, coupled with an array of new approaches, are generating new enthusiasm for the immunotherapy of melanoma.

Vaccine therapy for cancer: fact or fiction?

Great strides in the understanding of regulation of the immune system have led to development of strategies to harness the potential of cellular immune responses for improving the outcome for cancer patients. To generate a cytotoxic T-lymphocyte (CTL) response to cancer cells requires tumor-specific antigens processed appropriately and displayed by major histocompatibility complex (MHC) molecules, T-lymphocytes with receptors of appropriate specificity, and co-stimulation delivered by antigen-presenting cells through members of the B7 family. In this review, the fundamental advances that have been made in tumor antigen discovery, and the novel vaccine approaches arising from these advances are discussed.

[Case report: difficulty in treating one event of Streptococcus pneumoniae meningitis]. / Olgu raporu: Streptococcus pneumoniae menenjitli bir olguda tedavi güçlügü.

Streptococcus pneumoniae is one of the leading causes of acute bacterial meningitis and the emergence of antibiotic resistant pneumococci is an increasing problem worldwide. In this report, a 22-years-old woman was presented with pneumococcal meningitis occurring twice in a 5 months period. After the first meningitis attack, the patient had been vaccinated by 23-valent polysaccharide vaccine but the illness has relapsed. Although S. pneumoniae which was isolated from the patient has been found intermediate resistant to penicillin and susceptible to ceftriaxone by E-test, the patient could be treated only with meropenem. The case has been presented and discussed for ceftriaxone failure in spite of in-vitro susceptibility. On the other hand, this case indicated that vaccination might fail to prevent recurrence.

Uses of granulocyte-macrophage colony-stimulating factor in vaccine development.

Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a potent cytokine capable of inducing differentiation, proliferation, and activation of a variety of immunologically active cell populations. In addition to its effects on stimulating granulocytic hematopoiesis, it also facilitates development of both humoral and cellular mediated immunity. Accordingly, strategies involving the use of GM-CSF as a vaccine adjuvant have attracted considerable attention. These strategies include the systemic administration of soluble GM-CSF with an immunogen, and also its use as part of gene therapy approaches to immunization. Because of the potency of this cytokine as an immune adjuvant, particular interest has focused on its use to overcome poorly immunogenic antigens such as those associated with intracellular infections and cancer. This review focuses on recent advances in the use of GM-CSF as a vaccine adjuvant.

Active immunization of metastatic melanoma patients with interleukin-2-transduced allogeneic melanoma cells: evaluation of efficacy and tolerability.

From January 1994 to July 1996 we immunized metastatic melanoma patients with HLA-A2-compatible, interleukin-2 (IL-2)-secreting, immunogenic melanoma lines in an attempt to induce a systemic reaction that might also affect distant melanoma lesions. Twelve patients (6 male and 6 female) aged from 28 to 72 years, affected with visceral and/or subcutaneous (s.c.) melanoma metastases, were treated. Two different HLA-A2+ melanoma lines were transduced with the human IL-2 gene (14932/IL-2 and 1B6/IL-2) and used as vaccine. Two groups of 4 patients each were injected s.c. with 5 x 10(7) and 15 x 10(7) irradiated 14932/IL-2 melanoma cells respectively, whereas a third group received 5 x 10(7) cells of the second line (1B6/IL-2). All patients received the vaccine on days 1, 13, 26; if no progression was evident, further immunizations were administered at monthly intervals. All patients were assessable for clinical response after at least three injections of the vaccine. In 4 cases a stabilization of disease lasting from 2 to 6 months was observed: in 2 of them a mixed type of response to treatment was noted with simultaneous evidence of regressing and non-responding lesions in the same patients. No signs of clinical response were found in the remaining patients. Nine patients died of disease between 3 and 24 months after the onset of therapy, whereas 3 were alive 3 months after the end of therapy. The local and systemic side-effects of treatment were mild. These results indicate that vaccination with cells bearing the appropriate antigens and releasing IL-2 locally can produce weak clinical responses, but also indicate that better results may be achieved through modifications of the vaccine, the schedule of immunization and/or a more appropriate selection of patients.

Priming of the antitumor response promotes efficacy of interleukin-2 therapy.

We have studied the effect of active specific immunization (ASI) on the antitumor response induced by locoregional, low-dose interleukin-2 (IL-2) therapy. On day 0, mice were injected i.p. with viable, syngeneic tumor cells and with irradiated tumor cells (ASI). Low-dose IL-2 treatment was given i.p. for 5 consecutive days. ASI led to extended survival in two out of seven models tested. In these two models, enhanced efficacy was observed when both ASI and IL-2 were administered. In the five models in which ASI had no therapeutic value, ASI + IL-2 treatment was no more effective than IL-2 therapy. In the SL2 lymphoma model, use of ASI prior to IL-2 therapy given as early as days 1-5 led to at least 60% cure, whereas IL-2 therapy without ASI was only effective when administered after day 9. In the P815 mastocytoma model, however, ASI, IL-2, and the combination caused negative (suppressive) effects when administered on days 6-10. IL-2 administered on days 6-10 was therapeutically effective in this model when mice were treated with cyclophosphamide on day 6. In both the SL2 and the P815 tumor models, cured mice were specifically immune. The positive and negative effects observed were not due to the increased number of cells injected (non-specific inflammation) nor to possible antigenic alteration of the ASI cells by irradiation, as ASI with fragmented tumor cells was also effective in inducing synergy. Investigations into the underlying mechanism indicated that CD4+ cells play an important role. In total, the results indicate that ASI may be a good supplement to locoregional IL-2 treatment if care is taken to alleviate immunosuppressive activities.

Efficacy of an antipathology vaccine in murine schistosomiasis administered with and without chemotherapy.

This study was undertaken to study the efficacy of praziquantel (PZQ) in potentially tolerized Schistosoma mansoni infected, egg-injected C57BL/6 mice, receiving multiple administrations of soluble egg antigen (SEA) intravenously (i.v.). Four animal groups were studied. Experimental group I received four injections of SEA (10 micrograms) intravenously on days -7, -5, -3 and -2 before infection and PZQ orally (500 mg/kg over two consecutive days 7 weeks post-infection. Three control groups received the following treatment: group II received the same tolerizing dose of SEA without PZQ, group III received PZQ in the same dose and at the same timing. Group IV received S. mansoni infection and egg injection 8 weeks post-infection and served as an infected, egg-injected control. Egg injection was conducted 8 weeks post-infection using viable S. mansoni eggs via the tail vein. Animals were killed 16 days post-egg injection, i.e. 10 weeks post-infection. After sacrifice, lungs and livers were removed for histopathological study and measurement of granuloma diameters. Spleens and serum were collected for the assay of lymphoproliferative response to SEA and antischistosomal immunoglobulins. The worm and egg burdens were also studied. Compared to infected, egg-injected untreated controls, repeated i.v. administrations of SEA down-regulated egg-injected (pulmonary) and egg-deposited (hepatic) granulomas and the lymphoproliferative response to SEA. Antischistosomal IgG level was increased. Susceptibility to S. mansoni infection was not found to be different from that in the infected, egg-injected controls. PZQ in the dose used caused complete eradication of worms, disappearance of immature egg stages, decrease in the number of mature eggs and an increase in the number of dead eggs. Hepatic granuloma diameter, lymphoproliferative response to SEA and IgG level were reduced. In mice receiving a combined regimen of multiple SEA administrations and PZQ with down-regulated granuloma and reduced lymphoproliferative response to SEA, the efficacy of PZQ was the same as in mice receiving PZQ alone. This was shown by comparable grades of worm and egg reduction. The histopathological examination of liver and lung sections in the different treated groups revealed moderate to small-sized hypocellular granulomas. Although no statistically significant difference was recorded between the mean granuloma diameters of the experimental group receiving both the tolerizing dose of SEA and PZQ compared to the group receiving the tolerizing dose of SEA without chemotherapy, this experimental group showed the least associated histopathological parenchymal changes. It appears from this work that combined SEA and PZQ provided many complementary goals; a reduction of egg-induced pathology, minimal parenchymal changes and the eradication of worms.

Immunotherapy for malignant melanoma with a tumor cell vaccine.

Specific active immunotherapy for melanoma has been administered to several thousand patients since 1972, using an irradiated whole-cell preparation. A humoral response to vaccination can be demonstrated in a large percentage of patients. This response increases while immunizations are continued and decreases after cessation of therapy. The vaccinations are well tolerated; however, the therapeutic impact of this whole-cell vaccine awaits a randomized trial for definitive evaluation.

Active specific adjuvant immunotherapy with vaccinia melanoma oncolysate.

Vaccinia melanoma oncolysate is an investigative agent for active specific adjuvant immunotherapy. Viral oncolysate work in animals has led to application of this treatment in humans. Success of initial trials in treatment of melanoma has led to a phase III randomized, prospective, double-blind, multi-institutional trial, which is currently under way.