Increased c-fos expression associated with hyperthermia-induced apoptosis of a Burkitt lymphoma cell line

Ultra-small superparamagnetic iron oxide mediated magnetic hyperthermia in treatment of neck lymph node metastasis in rabbit pyriform sinus VX2 carcinoma

Lymph node metastasis of rabbit VX2 pyriform sinus carcinoma can be enhanced by MR scanning after injecting ultra-small superparamagnetic iron oxide (USPIO) into the submucosa beside the tumor. The metastasis lymph node which fit in with the diagnostic criteria will be placed into the alternating magnetic field after MR scanning. Then, magnetic particles can be heated to the effective therapeutic temperature. And it evaluates the possibility of diagnosis together with therapy in cervical metastasis of pyriform sinus carcinoma. Twenty rabbits bearing VX2 tumor in pyriform sinuses were randomly divided into hyperthermia group and control group after USPIO MR scanning; each group contained 10 rabbits. The hyperthermia for the experimental group was conducted by the alternating magnetic field. After hyperthermia, the detection of apoptosis for the two groups was tested by terminal deoxynucleotidyl transferase (TdT)-mediated dUTP nick end labeling (TUNEL), transmission electron microscopy (TEM), and the expression of Bcl-2 and Bax evaluated by immunohistochemical analysis. The apoptosis rate detected by TUNEL in hyperthermia group was 100 %, while the control group was only 20 % (p < 0.05). TEM observation showed that cell chromatin condensation and clumping, condensed cytoplasm, endoplasmic reticulum membrane fusion with loose change, and the formation of a bubble could be seen in the hyperthermia group. However, the control group showed a more complete cytoplasm and nucleus. Bcl-2 protein expression in the hyperthermia group was lower than the control group, and Bax protein expression in hyperthermia group was higher (p < 0.05). USPIO indirect lymphography could localize the metastatic lymph nodes for hyperthermia. And it could make the metastatic cervical lymph nodes apoptosis when placed into the alternating magnetic field.

Magnetic fluid hyperthermia enhances cytotoxicity of bortezomib in sensitive and resistant cancer cell lines

The proteasome inhibitor bortezomib (BZ) has shown promising results in some types of cancer, but in others it has had minimal activity. Recent studies have reported enhanced efficacy of BZ when combined with hyperthermia. However, the use of magnetic nanoparticles to induce hyperthermia in combination with BZ has not been reported. This novel hyperthermia modality has shown better potentiation of chemotherapeutics over other types of hyperthermia. We hypothesized that inducing hyperthermia via magnetic nanoparticles (MFH) would enhance the cytotoxicity of BZ in BZ-sensitive and BZ-resistant cancer cells more effectively than hyperthermia using a hot water bath (HWH). Studies were conducted using BZ in combination with MFH in two BZ-sensitive cell lines (MDA-MB-468, Caco-2), and one BZ-resistant cell line (A2780) at two different conditions, ie, 43°C for 30 minutes and 45°C for 30 minutes. These experiments were compared with combined application of HWH and BZ. The results indicate enhanced potentiation between hyperthermic treatment and BZ. MFH combined with BZ induced cytotoxicity in sensitive and resistant cell lines to a greater extent than HWH under the same treatment conditions. The observation that MFH sensitizes BZ-resistant cell lines makes this approach a potentially effective anticancer therapy platform.

Protooncogenes as mediators of apoptosis

Apoptosis has been well established as a vital biological phenomenon that is important in the maintenance of cellular homeostasis. Three major protooncogene families and their encoded proteins function as mediators of apoptosis in various cell types and are the subject of this chapter. Protooncogenic proteins such as c-Myc/Max, c-Fos/c-Jun, and Bcl-2/Bax utilize a synergetic effect to enhance their roles in the pro- or antiapoptotic action. These family members activate and repress the expression of their target genes, control cell cycle progression, and execute programmed cell death. Repression or overproduction of these protooncogenic proteins induces apoptosis, which may vary as a result of either cell type specificity or the nature of the apoptotic stimuli. The proapoptotic and antiapoptotic proteins exert their effects in the membrane of cellular organelles. Here they generate cell-type-specific signals that activate the caspase family of proteases and their regulators for the execution of apoptosis.

Apoptosis induced by hyperthermia in Dunn osteosarcoma cell line in vitro

The effect of hyperthermia at 43.5 degrees C for 1 h on Dunn osteosarcoma cells was studied. With sham-heated cells (37 degrees C, 1 h) as the control, the hyperthermia treated cells were divided into five groups. Time 0 group was the cells that were harvested immediately after heated at 43.5 degrees C for 1 h. Whereas time 3, 6, 12, and 24 h groups were the cells that were collected respectively after reincubation at 37 degrees C for the above different time periods. The appearance of hyperthermia-induced apoptosis of Dunn osteosarcoma cells was demonstrated to be time dependent. With the confocal microscopic study and TUNEL staining, the morphological characteristics of apoptosis, condensed nuclei and fragmented nuclei were obvious when reincubated at 37 degrees C for 6 h after hyperthermic treatment. This hyperthermia-induced apoptosis was further confirmed by flow cytometric analysis on DNA contents. The sub-G1 region that was proposed as a marker of apoptotic cells was most significantly elevated at 6 h after hyperthermic treatment and, thereafter, decreased to the levels of control values by 24 h, as the apoptotic cells underwent secondary necrosis and degraded to debris. The DNA strand breaks, considered as the key biochemical event of apoptosis, were detected by the TUNEL assay. This study indicated that hyperthermia (43.5 degrees C for 1 h) can induce apoptotic changes on osteosarcoma cells in vitro very rapidly (within 6 h after treatment), and its occurrence might not be detected if the samples are not taken at several early time points after hyperthermia.

Overexpression of phospholipase C-gamma1 suppresses UVC-induced apoptosis through inhibition of c-fos accumulation and c-Jun N-terminal kinase activation in PC12 cells

Ultraviolet-C (UVC) irradiation induces DNA damage and UVC-irradiated cells undergo cell growth arrest to repair the damaged DNA or the induction of apoptosis to prevent the risk of neoplastic transformation. Phospholipase C-gamma1 (PLC-gamma1) is a mediator of growth factor induced-signal cascade, catalyzing the hydrolysis of phosphatidyl 4,5-bisphosphate to generate second messengers, diacylglycerol and inositol 1,4,5-trisphosphate (IP(3)). PLC-gamma1 is activated by phosphorylation of tyrosine residues upon occupation of cell surface receptors by growth factors and plays an important role in controlling cellular proliferation and differentiation. In this study, we found that PLC-gamma1 was tyrosine phosphorylated within 2.5 min after UVC irradiation. To investigate the role of UVC-induced tyrosine phosphorylation of PLC-gamma1, we compared the effect of UVC between PLC-gamma1 overexpressing cells and empty vector transfected cells. Overexpression of PLC-gamma1 inhibited UVC-induced sub-diploid peak and DNA fragmentation. Northern blot analysis revealed that UVC-induced c-fos mRNA accumulation was inhibited in PLC-gamma1 overexpressing cells, while c-jun expression was not affected. In addition, UVC-induced activation of c-Jun N-terminal kinase (JNK) was significantly suppressed in PLC-gamma1 overexpressing cells. These results suggest that PLC-gamma1 may associate with the protective function against the UVC-induced cell death progression via the inhibition of accumulation of c-fos mRNA and the inhibition of JNK kinase activity.

c-fos protein expression in apoptotic rat spermatocytes induced by gossypol

Proto-oncogene products such as c-fos protein with a molecular weight of 62 kDa have been identified in rat spermatocytes. In this study, cellular levels of c-fos proteins in spermatocyte, either with or without gossypol exposure, were quantitatively detected by Western immunoblot and a computer-controlled Spot-denso-program with an IS-1000 Digital Imaging System. Within 0.5-3.5 h (an average of 2 h) of the addition of gossypol, levels of c-fos proteins fell dramatically. The reduction in c-fos proteins occurred 6 h before the apoptosis of spermatocytes in the presence of gossypol. Four hours after exposure to gossypol, the c-fos protein content was overexpressed. The period of c-fos up-regulation lasted for approximately 8 h. The increase in c-fos protein coincided with a high rate of apoptotic cell death. Morphologic structure of the dying cell was revealed by electron microscopy. These results suggest that spermatocyte apoptosis induced by gossypol correlates with biphasic c-fos protein-mediated apoptosis.

The roles of mitotic arrest and protein synthesis in induction of apoptosis and differentiation in neuroblastoma cells in culture

Studies of the response of neural crest tumor cells to the DNA cleaving antimitotic agent, neocarzinostatin, have left unanswered the question of whether the DNA cleavage per se or the antimitotic effect is responsible for this response. Furthermore, they do not define the timeframe within which a cell commits to its fate. Using the reversible microtubule-active agent, vinblastine, we now demonstrate that mitotic arrest, even without DNA cleavage, results in the same cellular changes as those seen with neocarzinostatin treatment. The commitment of the cell to its fate occurs within a 15 min treatment with vinblastine, and requires new protein synthesis. The immediate early gene products, c-Fos and c-Jun, appear not to be determinants of this process.

Experimental approaches to therapy and prophylaxis for heat stress and heatstroke

New developments in the fields of biochemistry, physiology, sepsis, cancer therapy, and molecular genetics have led to opportunities for the development of new therapies and prophylaxes for heat illnesses and for improving human performance during conditions of environmental stress. These include antilipopolysaccharide agents, anticytokines, potassium channel agents, a diet rich in omega-3 fatty acids, and psychological conditioning. This review summarizes the backgrounds and recent findings in the above fields and provides specific suggestions for potential therapy and prophylaxis for classic and exertional heatstroke and for improving athletic performance.