Phytohemagglutinin from Phaseolus vulgaris enhances the lung cancer cell chemotherapy sensitivity by changing cell membrane permeability.

Chemotherapy is still a prevalent strategy for clinical lung cancer treatment. However, the inevitable emerged drug resistance has become a great hurdle to therapeutic effect. Studies have demonstrated that the primary cause of drug resistance is a decrease in the chemotherapeutic medicine concentration. Several lectins have been confirmed to be effective as chemotherapy adjuvants, enhancing the anti-tumor effects of chemotherapy drugs. Here, we combined phytohemagglutinin (PHA), which has been reported possess anti-tumor effects, with chemotherapy drugs Cisplatin (DDP) and Adriamycin (ADM) on lung cancer cells to detect the sensitivities of PHA as a chemotherapy adjuvant. Our results demonstrated that the PHA significantly enhanced the sensitivity of lung cancer cells to DDP and ADM, and Western blot showed that PHA combined with DDP or ADM enhance cytotoxic effects by inhibiting autophagy and promoting apoptosis. More importantly, we found PHA enhanced the chemotherapeutic drugs cytotoxicity by changing the cell membrane to increase the intracellular chemotherapeutic drugs concentration. Besides, the combination of PHA and ADM increased the ADM concentration in the multidrug-resistant strain A549-R cells and achieved the drug sensitization effect. Our results suggest that PHA combined with chemotherapy can be applied in the treatment of lung cancer cells and lung cancer multidrug-resistant strains, and provide a novel strategy for clinical tumor chemotherapy and a new idea to solve the problem of drug resistance in clinical lung cancer.

Reducing the availability of polyamines for a developing tumour.

To sustain growth and support metabolic requirements, mammals assimilate energy-producing molecules and nutrients from food. These molecules are distributed throughout the body in order to meet the requirements of the internal organs. The various demands of the different organs are to a large extent met by regulatory processes consisting of a complex interaction between hormones, growth factors and cytokines. Normal metabolic activity and partitioning of nutrients between individual organs is affected by a number of events such as stress, a limited supply of nutrients, infection or tumour growth. Since the intestine has the highest metabolic activity of all the internal organs, a tumour will initially compete with the gut for nutrients and energy-providing molecules. The polyamines represent a class of molecules where the demand in the body increases during tumour growth. A tumour can partly obtain the polyamines required to support its growth by up-regulating its own biosynthetic capacity and partly by increasing uptake from the body pool. Rather than limiting the exogenous supply of dietary polyamines we have used another approach to manipulate polyamine pools in mice. When the lectin phytohaemagglutinin is included in the diet, a fully reversible dose-dependent growth of the small intestine occurs leading to an extensive accumulation of polyamines in the intestinal epithelia. This approach of reducing the availability of exogenous polyamines to a growing tumour will be discussed.

Kinetics of immunological parameters in patients with malignant melanoma treated with hyperthermic isolated limb perfusion.

Kinetics of immunological parameters such as natural killer (NK) cell activity and tritium-thymidine uptake rate of T lymphocytes by phytohemagglutinin stimulation were investigated using peripheral leukocyte fractions of melanoma patients treated with hyperthermic isolated limb perfusion (HILP). Also, serum concentrations of soluble intercellular adhesion molecule-1 (sICAM-1) were quantified during and after HILP. It was found that NK cell activity was augmented during HILP, and T lymphocyte function was stimulated 24 h and 1 week after HILP with statistical significance. NK cell activities in the cells isolated from perfused and non-perfused circulations were equally augmented during HILP in two patients examined. Serum concentrations of sICAM-1 in the patients who received HILP also increased 24 h or even 1 week after HILP. The stimulation of these immune competent cells and upregulation of sICAM-1 by HILP were independent of the stages of melanoma patients at the time of HILP or the doses of agents which were used for the infusion during HILP. The origin of cells which shed sICAM-1 into the serum of the patients who received HILP remains to be further investigated.

Plant lectins as inhibitors of tumour growth and modulators of host immune response.

The antitumour activities of four plant lectins, phytohaemagglutinin, pokeweed mitogen, soybean agglutinin, and wheat germ agglutinin, were evaluated on a murine ascitic lymphoma. The effects of lectin treatment on mitogenic response of peripheral blood lymphocytes and macrophage-mediated tumour cell lysis were also assessed. All four lectins studied were found to be able to restrict tumour growth and to improve the life expectancy of the host. The response of peripheral blood lymphocytes towards mitogenic stimulation was found to be improved and enhancement of tumour cytolysis by peritoneal macrophages was noted following lectin treatment.