It is known that the pineal gland has some antitumor activity. Melatonin, its most important hormone, has been shown to inhibit tumor growth in vivo and in vitro. Moreover, some investigations have demonstrated an altered melatonin secretion in cancer patients. Despite these interesting data, clinical trials have never been carried out to evaluate the effects of melatonin on human neoplasms. The aim of this study was to draw some preliminary conclusions on melatonin therapy in advanced human neoplasms. Nineteen patients suffering from advanced solid tumors, which did not respond to standard therapies, entered the study. Performance status (PS) was 20 or less in 9 cases, and more than 20 in the other 10. Melatonin was given intramuscularly at a daily dose of 20 mg at 3.00 p.m., followed by a maintenance period with lower doses in patients who had a remission, a stabilization of disease or an improvement in PS. Among patients with a PS higher than 20, a partial response was achieved in one case with cancer of the pancreas; moreover, 5 of 10 had stable disease, but the other 4 cases had a progression; an evident improvement of PS was obtained in 6 of the 10 cases. In contrast, among patients with a very poor PS, 7 of 9 died within the first 2 months of therapy. This preliminary study would suggest that melatonin may be of some value in treating cancer patients in whom standard antitumor therapies have failed, particularly in improving their PS and quality of life.
We have previously reported that nicotine stimulates cell proliferation of three small-cell lung carcinoma (SCLC) cell lines by activating nicotinic receptors of the neuronal type. Here we report that, in the GLC-8 SCLC cell line, nicotine stimulates mitogen-activated protein (MAP) kinase activity in a concentration- and time-dependent manner (ED50 = 10 nM). The nicotine effect was antagonized by mecamylamine, an antagonist specific for neuronal nicotinic receptors. The absence of extracellular Ca2+, or pretreatment with pertussis toxin or the tyrosine kinase inhibitor genistein inhibited the action of nicotine on MAP kinase. Moreover, supernatants from nicotine-stimulated cells transferred to cells pretreated with mecamylamine were still capable of activating MAP kinase. On the other hand, the same supernatants transferred to cells pretreated with mecamylamine and pertussis toxin or genistein failed to activate MAP kinase. These findings suggest that nicotine elicits its stimulatory effect on MAP kinase in SCLC cells indirectly by inducing the production and/or release of a factor which then acts via a pertussis toxin- and tyrosine kinase-sensitive route.
The pineal hormone melatonin (MLT) is able to exert an oncostatic action. Its possible use in the treatment of human tumors, however, has not yet been investigated. The present study was carried out to evaluate the effects of MLT in patients with metastatic solid tumors resistant to conventional therapies. The study included 54 patients, most of them were affected by lung cancer or colorectal carcinoma. MLT was given intramuscularly at a daily dose of 20 mg at 3.00 p.m. for 2 months; this induction phase was followed by a maintenance period at a dose of 10 mg orally in responder patients or in those with an improvement in performance status (PS). The clinical response was as follows: 1 partial response (cancer of pancreas), 2 minor responses (colon cancer and hepatocarcinoma) and 21 with stable disease. The remaining 30 patients rapidly progressed within the first 2 months of therapy. An evident improvement in PS was achieved in 18 of 54 (33%) cases. These results, by showing an apparent control of the neoplastic growth and an improvement in the quality of life in a reasonable number of cancer patients for whom no other standard therapy is available, would justify further clinical trials to better define the impact of MLT therapy on the survival and quality of life of untreatable advanced cancer patients.
The capillary leak syndrome, responsible for fluid loss into the interstitial space, represents one of the major cardiovascular toxicities of IL-2 during the immunotherapy of cancer. The mechanisms involved in the increased vascular permeability have still to be better understood. The present study was carried out to investigate the role of the complement system in mediating the IL-2 vascular toxicity. The study was performed in metastatic renal cancer patients, treated with IL-2 through a 24-hour i.v. infusion at a daily dose of 3 x 10(6) U/m2 for 5 consecutive days, corresponding to one IL-2 course. Six IL-2 courses were evaluated. C3 and C4 were measured daily during IL-2 infusion, and 2 and 5 days after its interruption. IL-2 administration induced a significant decrease in both C3 and C4 mean levels, which became within the normal range 5 days after the end of IL-2 infusion. These results show that IL-2 administration may directly activate the complement system through the classical pathway, which might play a role in determining the increased vascular permeability.
It has been demonstrated that melatonin and other pineal hormones play a role in the neuroendocrine control of immunity. Anomalies of both pineal and immune functions have been reported in cancer. Pineal and lymphocyte functions, however, have never been simultaneously evaluated in oncologic patients. This preliminary study was carried out in order to analyze the melatonin-lymphocyte relationship in human neoplasms. In a first investigation, we evaluated melatonin serum levels and lymphocyte subpopulations on venous blood samples collected during the morning from 46 healthy controls and from 27 cancer patients, 13 of whom had metastases, while the other 14 were without metastases. Moreover, melatonin levels were high in 10 oncological patients and within the normal range in the other 17 cases. B lymphocyte (B), total T lymphocyte (T3), T helper/inducer (T4) and T suppressor/cytotoxic (T8) mean percentages and T4/T8 mean ratios did not significantly differ, either between patients with high and normal melatonin levels, or between metastatic and nonmetastatic cancer patients. In a second study, we evaluated the effects of a prolonged treatment with melatonin (20 mg/daily intramuscularly at 3:00 p.m. for 2 months) on 8 patients with advanced cancer, in whom conventional antitumor therapies had failed. Mean percentages of B, T3, T4, T8 lymphocytes and T4/T8 mean ratios were not significantly different before or after melatonin treatment. In only one patient did the T4/T8 ratio decrease after therapy; in this case only, a stabilization of the disease was obtained, while in all 7 other patients the neoplastic disease progressed also during melatonin treatment, even if an evident improvement of the performance status was seen as it was in most cases. These results seem to exclude that melatonin may influence lymphocyte functions in cancer. Longitudinal studies and further data, however, will be needed to clarify this question.
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