To determine the durability of complete responses in patients with metastatic melanoma or renal cancer treated with highdose bolus interleukin-2 (IL-2) as well as the factors associated with the development of a complete response and the antigens mediating clinical responses. Methods A consecutive series of 409 patients with either metastatic melanoma or renal cancer who were treated with high-dose bolus IL-2 in the Surgery Branch, National Cancer Institute, between September 1985 and November 1996 have been analyzed with a median potential follow-up of 7.1 years. All patients were treated with 720,000 lU/kg administered by 15-minute intravenous infusions every 8 hours for up to 5 days as clinically tolerated per cycle. Two cycles constituted a treatment course. Tumor-infiltrating lymphocytes (TIL) from melanoma patients were used to clone the genes encoding the tumor antigens responsible for clinical responsiveness. Results Thirty-three of 409 (8.1 %) patients treated with high-dose bolus IL-2 achieved a complete response and 37 (9%) achieved a partial response. Complete regression was seen in 6.6% and 9.3% of patients with metastatic melanoma and renal cancer, respectively. Twenty-seven of these 33 completely responding patients (82%) remain in ongoing continuous complete response from 39 to more than 148 months from the onset of treatment. Tumor regressions were seen at virtually all organ sites. The absence of prior treatment with immunotherapy, the total dose of IL-2 administered, and the maximal rebound lymphocytosis after cessation of IL-2 correlated with achieving a complete response. Expression cloning techniques have identified a series of tumor antigens that are recognized by TIL grown from resected melanomas. These antigens are mainly melanoma/ melanocyte differentiation antigens, although mutated intracellular proteins can also serve as antigens. Conclusions Treatment with high-dose bolus IL-2 mediates complete cancer regression in approximately 8% of patients with metastatic renal cancer and melanoma. The great majority of these patients will enter durable complete regressions and appear to be cured of their metastatic cancer. Thus, immunotherapy with high-dose bolus IL-2 should be considered as initial therapy for appropriately selected patients with metastatic melanoma and renal cell cancer. Identification of the tumor antigens mediating clinical response is opening new therapeutic possibilities for cancer treatment. Patients with metastatic melanoma or metastatic renal cancer experience median survivals of less than 1 year, and
We performed an escalating dose study of the combined administration of interleukin-2 (IL-2) and alpha-interferon (alpha-IFN) in 94 patients with metastatic cancer. Patients received alpha-IFN at a dose of 3 x 10(6) U/m2 in conjunction with IL-2 at doses of either 1 x 10(6) U/m2 (six patients), 3 x 10(6) U/m2 (32 patients), or 4.5 x 10(6) U/m2 (26 patients). Thirty patients received alpha-IFN at 6 x 10(6) U/m2 plus IL-2 at 4.5 x 10(6) U/m2. Patients each received cytokine as an intravenous bolus infusion every 8 hours for up to 5 consecutive days and after a 10-day rest received a second cycle of combination cytokines. Of the 91 patients evaluable for response, seven patients had a complete regression of cancer, and 18 had a partial regression. At the four increasing dose levels used in patients with renal cell cancer (35 patients) or melanoma (39 patients), objective responses were seen in 17% (of six patients), 24% (of 25 patients), 38% (of 16 patients), and 41% (of 27 patients), respectively. Of the 25 total responding patients, 16 are still responding 5 to 14 months after treatment. The toxicities associated with the combined administration of IL-2 and alpha-IFN were similar to those expected from each agent alone. There was one treatment-related death in the 94 patients treated in this study. Thus, using increasing doses of the combination of IL-2 and alpha-IFN, it appears that response rates may be related to the doses of the cytokines used, and that at the highest doses of these combination cytokines, response rates may be higher than those for either cytokine alone. A prospective randomized trial comparing the cytokine combinations with each cytokine administered alone is necessary as is the extension of this combination cytokine treatment to patients with other types of solid cancer.
Autophagy is involved in many human diseases, such as cancer, cardiovascular disease and virus infection, including human immunodeficiency virus (HIV), hepatitis C virus (HCV), influenza A virus (IAV) and coxsackievirus B3/B4 (CVB3/B4), so a drug screening model targeting autophagy may be very useful for the therapy of these diseases. In our study, we established a drug screening model based on the inhibition of the dissociation of Beclin1-Bcl2 heterodimer, an important negative regulator of autophagy, using bimolecular fluorescence complementation (BiFC) technique for developing novel autophagy inhibitors and anti-IAV agents. From 86 examples of traditional Chinese medicines, we found Syzygium aromaticum L. had the best activity. We then determined the anti-autophagy and anti-IAV activity of eugenol, the major active compound of Syzygium aromaticum L., and explored its mechanism of action. Eugenol could inhibit autophagy and IAV replication, inhibited the activation of ERK, p38MAPK and IKK/NF-κB signal pathways and antagonized the effects of the activators of these pathways. Eugenol also ameliorated the oxidative stress and inhibited the expressions of autophagic genes. We speculated that the mechanism underlying might be that eugenol inhibited the oxidative stress and the activation of ERK1/2, p38MAPK and IKK/NF-κB pathways, subsequently inhibited the dissociation of Beclin1-Bcl2 heterodimer and autophagy, and finally impaired IAV replication. These results might conversely display the reasonableness of the design of our screening model. In conclusion, we have established a drug screening model for developing novel autophagy inhibitor, and find eugenol as a promising inhibitor for autophagy and IAV infection.
Recombinant adeno-associated virus (AAV) has attracted tremendous interest as a promising vector for gene delivery. In this study we have developed an HIV-1 vaccine, using an AAV vector expressing HIV-1 env, tat, and rev genes (AAV-HIV vector). A single injection of the AAV-HIV vector induced strong production of HIV-1-specific serum IgG and fecal secretory IgA antibodies as well as MHC class I-restricted CTL activity in BALB/c mice. The titer of HIV-1-specific serum IgG remained stable for 10 months. When AAV-HIV vector was coadministered with AAV-IL2 vector, the HIV-specific cell-mediated immunity (CMI) was significantly enhanced. Boosting with AAV-HIV vector strongly enhanced the humoral response. Furthermore, the mouse antisera neutralized an HIV-1 homologous strain, and BALB/c mice immunized via the intranasal route with an AAV vector expressing the influenza virus hemagglutinin (HA) gene showed protective immunity against homologous influenza virus challenge. These results demonstrate that AAV-HIV vector immunization may provide a novel and promising HIV vaccination strategy.
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