Eicosanoids and cancer

Eicosanoids are 20-carbon bioactive lipids derived from the metabolism of polyunsaturated fatty acids, which can modulate various biological processes including cell proliferation, adhesion and migration, angiogenesis, vascular permeability and inflammatory responses. In recent years, studies have shown the importance of eicosanoids in the control of physiological and pathological processes associated with several diseases, including cancer. The polyunsaturated fatty acid predominantly metabolized to generate 2-series eicosanoids is arachidonic acid, which is the major n-6 polyunsaturated fatty acid found in animal fat and in the occidental diet. The three main pathways responsible for metabolizing arachidonic acid and other polyunsaturated fatty acids to generate eicosanoids are the cyclooxygenase, lipoxygenase and P450 epoxygenase pathways. Inflammation plays a decisive role in various stages of tumor development including initiation, promotion, invasion and metastasis. This review will focus on studies that have investigated the role of prostanoids and lipoxygenase-derived eicosanoids in the development and progression of different tumors, highlighting the findings that may provide insights into how these eicosanoids can influence cell proliferation, cell migration and the inflammatory process. A better understanding of the complex role played by eicosanoids in both tumor cells and the tumor microenvironment may provide new markers for diagnostic and prognostic purposes and identify new therapeutic strategies in cancer treatment.

Revisiting the roles of VHR/DUSP3 phosphatase in human diseases

Protein tyrosine phosphatases have long been considered key regulators of biological processes and are therefore implicated in the origins of various human diseases. Heterozygosity, mutations, deletions, and the complete loss of some of these enzymes have been reported to cause neurodegenerative diseases, autoimmune syndromes, genetic disorders, metabolic diseases, cancers, and many other physiological imbalances. Vaccinia H1-related phosphatase, also known as dual-specificity phosphatase 3, is a protein tyrosine phosphatase enzyme that regulates the phosphorylation of the mitogen-activated protein kinase signaling pathway, a central mediator of a diversity of biological responses. It has been suggested that vaccinia H1-related phosphatase can act as a tumor suppressor or tumor-promoting phosphatase in different cancers. Furthermore, emerging evidence suggests that this enzyme has many other biological functions, such as roles in immune responses, thrombosis, hemostasis, angiogenesis, and genomic stability, and this broad spectrum of vaccinia H1-related phosphatase activity is likely the result of its diversity of substrates. Hence, fully identifying and characterizing these substrate-phosphatase interactions will facilitate the identification of pharmacological inhibitors of vaccinia H1-related phosphatase that can be evaluated in clinical trials. In this review, we describe the biological processes mediated by vaccinia H1-related phosphatase, especially those related to genomic stability. We also focus on validated substrates and signaling circuitry with clinical relevance in human diseases, particularly oncogenesis.

RHO GTPasas como blancos moleculares en cáncer: Estrategias y oportunidades terapéuticas / Rho GTPases as molecular targets in cancer. Strategies and therapeutic opportunities

Las Rho GTPasas son una familia de proteínas que actúan como interruptores moleculares en diversas vías de señalización coordinando la regulación de distintos procesos celulares. La desregulación de dichas proteínas se vincula con transformación maligna y progresión tumoral en distintos tipos de cáncer. Por estos motivos, en los últimos años las Rho GTPasas fueron postuladas como blancos moleculares interesantes. En este trabajo describimos las distintas estrategias estudiadas utilizando a las Rho GTPasas como blanco y su grado de avance, mostrando una estrategia novedosa para el tratamiento del cáncer.

Rho GTPases are molecular switches that control the different cellular processes. Deregulation of these proteins is associated to transformation and malignant progression in several cancer types. Given the evidence available of the role of Rho GTPases in cancer it is suggested that these proteins can serve as potential therapeutic targets. This review focuses on the strategies used to develop Rho GTPases modulators and their potential use in therapeutic settings.

Seroprevalencia y detección de infección primaria por citomegalovirus mediante prueba de avidez IgG en el primer trimestre de embarazo / Seroprevalence and detection of primary infection by cytomegalovirus with IgG avidity test during the first quarter of pregnancy

Objetivo. Conocer la seroprevalencia y detección de infección primaria por citomegalovirus (CMV) mediante prueba de avidez de inmunoglobulina G (IgG) durante el primer trimestre del embarazo en el Hospital General de Morelia, Michoacán. Material y métodos. Se estudiaron 177 pacientes mediante prueba de Elisa modificada, la cual utiliza inmunoanálisis quimioluminiscente de micropartículas (CMIA) para detección de anti-CMV (IgG e inmunoglobulina M [IgM]) e IgG avidez. Resultados. Del total de pruebas, 90.4% resultaron positivas para IgG; de éstas, 2.3% resultaron reactivas a IgM. En este segundo grupo, la prueba de IgG avidez reportó avidez baja en 1.1% y alta en el mismo porcentaje; 9.6% fueron seronegativas. Conclusiones. Se encontró similitud con lo publicado en México. Los profesionales de la salud deben conocer los algoritmos para el diagnóstico y manejo oportuno de la infección por CMV mediante la prueba de avidez de IgG.

Objective. To determine the seroprevalence and detection of primary infection by cytomegalovirus (CMV) with immunoglobulin G (IgG) avidity test during the first quarter of pregnancy in the General Hospital in Morelia, Michoacan. Materials and methods. A total of 177 patients were studied employing a modified Elisa test using a chemiluminescent microparticle immunoassay (CMIA) for the detection of CMV antibodies (IgG and immunoglobulin M [IgM]), and IgG avidity. Results. 90.4% were positive for IgG, and of these, 2.3% were also reactive for IgM, and in this group the IgG avidity test reported low avidity for 1.1% and higher avidity in the same percentage. 9.6% were seronegative. Conclusions. Similarity was found with published studies in Mexico. Health professionals should know the clinical algorithms for diagnosis and proper management of CMV infection using the IgG avidity test.

Telomerasa y telómero: su estructura y dinámica en salud y enfermedad / Telomerase and telomere: their structure and dynamics in health and disease

La telomerasa es la enzima responsable del mantenimiento de la longitud de los telómeros mediante la adición de secuencias repetitivas ricas en guanina, y su actividad se observa principalmente en gametos, células madre y células tumorales. En las células somáticas humanas el potencial de proliferación es limitado, alcanzando la senescencia luego de 50-70 divisiones celulares, debido a que la ADN polimerasa no es capaz de copiar el ADN en los extremos de los cromosomas. Por el contrario, en la mayoría de las células tumorales el potencial de replicación es ilimitado debido al mantenimiento de la longitud telomérica dado por la telomerasa. Los telómeros tienen proteínas adicionales que regulan la unión de la telomerasa. De la misma manera la telomerasa también se asocia con un complejo de proteínas que regulan su actividad. Este trabajo se centra en la estructura y función del complejo telómero/telomerasa y a cómo las alteraciones en su comportamiento conducen al desarrollo de diversas enfermedades, principalmente cáncer. El desarrollo de inhibidores del sistema telómero / telomerasa podría ser un blanco con posibilidades prometedoras.

Telomerase is the enzyme responsible for the maintenance of telomere length by adding guanine-rich repetitive sequences. Its activity can be seen in gametes, stem cells and tumor cells. In human somatic cells the proliferative potential is limited, reaching senescence after 50-70 cell divisions, because the DNA polymerase is not able to copy the DNA at the ends of chromosomes. By contrast, in most tumor cells the replicative potential is unlimited due to the maintenance of the telomeric length given by telomerase. Telomeres have additional proteins that regulate the binding of telomerase, likewise telomerase associates, with a protein complex that regulates its activity. This work focuses on the structure and function of the telomere/telomerase complex and how changes in its behavior lead to the development of different diseases, mainly cancer. Development of inhibitors of the telomere/telomerase complex could be a target with promising possibilities.

Avances en los mecanismos moleculares del cáncer / Advances in the molecular mechanisms of cancer

In this review, epidemiological, physiological, pathophysiological and pharmacological themes of cancer are dealt. So far, there are over 200types of cancers, which are linked to six key events that collectively lead to the formation of a malignance: self-sufficiency in growth signals, insensitivity to growth inhibitory signals, evasion of apoptosis, unlimited replication potential, sustained angiogenesis and invasion and metastasis. These six capabilities are possibly shared by most human tumors. In2000, there were 10 million new cancer cases and 6 million cancer deaths worldwide. According to estimates by the American Cancer Society, the disease produced approximately 556,000 deaths in 2003, corresponding to 1,500 deaths from cancer every day in America. Annually, in Chile, cancer is responsible for 23 percent of all deaths, constituting the second leading cause of death after cardiovascular diseases. They have identified several risk factors for cancer such as smoking, chronic infections, alcohol consumption, reproductive factors, hormone replacement therapy, dietary habits, sunlight, among others. These factors may cause multiple genetic alterations that involve activation of several oncogenes and the loss of two or more suppressor genes, but not a single change will lead to the formation of a neoplasm. The Knowledge of the molecular differences between normal and malignant cells could be used to target specific pathways and receptors of the latter, thus preventing normal cell death.

Synergistic induction of cancer cell migration regulated by Gbetagamma and phosphatidylinositol 3-kinase

Phosphatidylinositol 3-kinase (PI3K) is essential for both G protein-coupled receptor (GPCR)- and receptor tyrosine kinase (RTK)-mediated cancer cell migration. Here, we have shown that maximum migration is achieved by full activation of phosphatidylinositol 3,4,5-trisphosphate-dependent Rac exchanger 1 (P-Rex1) in the presence of Gbetagamma and PI3K signaling pathways. Lysophosphatidic acid (LPA)-induced migration was higher than that of epidermal growth factor (EGF)-induced migration; however, LPA-induced activation of Akt was lower than that stimulated by EGF. LPA-induced migration was partially blocked by either Gbetagamma or RTK inhibitor and completely blocked by both inhibitors. LPA-induced migration was synergistically increased in the presence of EGF and vice versa. In correlation with these results, sphingosine-1-phosphate (S1P)-induced migration was also synergistically induced in the presence of insulin-like growth factor-1 (IGF-1). Finally, silencing of P-Rex1 abolished the synergism in migration as well as in Rac activation. Moreover, synergistic activation of MMP-2 and cancer cell invasion was attenuated by silencing of P-Rex1. Given these results, we suggest that P-Rex1 requires both Gbetagamma and PI3K signaling pathways for synergistic activation of Rac, thereby inducing maximum cancer cell migration and invasion.

O papel das selenoproteínas no câncer / The role of selenoproteins in cancer

Evidências têm demonstrado que distúrbios do metabolismo são comuns em células tumorais, levando ao aumento do estresse oxidativo. A elevação na produção de espécies reativas de oxigênio (EROs) associada à baixa atividade antioxidante tem sido relacionada a vários tipos de câncer. O selênio, micronutriente antioxidante, pode funcionar como um agente antimutagênico, prevenindo transformações malignas de células normais. Realizou-se um levantamento bibliográfico no período 2000 a 2009 mediante consulta à base de dados PubMed (National Library of Medicine´s Medline Biomedical Literature, USA), selecionando-se 39 artigos que avaliaram a relação entre câncer, estresse oxidativo e suplementação com selênio. O efeito protetor desse mineral é especialmente associado à sua presença na glutationa peroxidase e na tioredoxina redutase, enzimas protetoras do DNA e outros componentes celulares contra o dano oxidativo causado pelas EROs. Vários estudos têm demonstrado a expressão reduzida destas enzimas em diversos tipos de câncer, principalmente quando associados a uma baixa ingestão de selênio, que pode acentuar os danos causados. A suplementação de selênio parece ocasionar redução do risco de alguns tipos de câncer diminuindo o estresse oxidativo e o dano ao DNA. No entanto, mais estudos são necessários para esclarecer as doses de selênio adequadas para cada situação (sexo, localização geográfica e tipo de câncer).

There are evidences that metabolic disorders are common in tumoral cells, leading to increased oxidative stress. The rising in the production of reactive oxygen species associated to low antioxidant activity have been associated to different types of cancer. Selenium, an antioxidant micronutrient can work as an anti-cancer agent preventing malignant modification in healthy cells. A literature review was carried out in the period 2000-2009 in the database PubMed selecting 39 articles which assessed the relationship between cancer, oxidative stress, and supplementation with selenium. The protective effect of selenium is specially associated to the presence of glutathione peroxidase and of thioredoxin reductase enzymes and with other cell components which protect the tissues against the oxidative damage caused by reactive oxygen species - ROS. Several studies have shown a decrease of these enzymes in many types of cancer, mainly when associated with low selenium consumption, increasing the damage caused by ROS. Selenium supplementation seems to reduce the risk of some types of cancer by stress oxidative reduction and by limiting the damage to DNA. Nevertheless, more studies are necessary to clarify the adequate selenium doses in each situation (gender, geographic localization and type of cancer).

Las proteasas en la progresión neoplásica / Proteases in cancer progression

La invasión y la metástasis son los eventos más importantes en la progresión del cáncer, en los cuales están implicadas muchas moléculas, entre ellas, las proteasas. Éstas desempeñan un papel importante en etapas tempranas de la carcinogénesis, en la invasión, en fenómenos asociados como la angiogénesis y en la metástasis, principalmente por su capacidad para degradar componentes de la matriz extracelular, aunque sus sustratos son de naturaleza diversa: citocinas, quimiocinas, factores de crecimiento (b- FGF, HGF, VEGF) y de muerte celular, cistatina-C, galectina, procolágena y otras proteasas, que pueden favorecer o inhibir la progresión neoplásica. Las proteasas son también moléculas de señalización que modulan a otras moléculas; forman cascadas, circuitos e incluso redes, que en conjunto determinan parte del potencial maligno. Se sabe que tanto la célula tumoral como las del estroma secretan diversos factores que regulan directa e indirectamente la expresión de proteasas en el microambiente tumoral. Esta revisión proporciona un panorama breve y actualizado sobre la participación de las proteasas en la progresión neoplásica.

Invasion and metastasis are the most important events in cancer progression. In these two phases, several molecules are implicated and have been long associated with several forms of cancer. Proteases play a critical role not only in tumor cell invasion, but also in the earliest stages of carcinogenesis and its associated changes: angiogenesis and metastasis. Aside from their ability to degrade the extracellular matrix, facilitate invasion and metastasis, proteases target a great variety of substrates that favor or inhibit cancer progression: b-FGF, HGF, VEGF, cell death receptors, cistatin-C, galectin, procollagen, and other proteases. Proteases are also signaling molecules that modulate other molecules by underlying pathways in addition to their degradative role. Proteases form interconnected cascades, circuits and networks that bring about the tumor's potential for malignancy. Although, proteases are regulated by diverse molecules, it is known that tumoral and stromal cells secrete several biological molecules, including cytokines and chemokines that directly or indirectly regulate the protease-expression within the tumor's microenvironment. The present review briefly summarizes some of the major aspects associated with the role of proteases in cancer progression.

Low energy proton beam induces tumor cell apoptosis through reactive oxygen species and activation of caspases

Proton beam is useful to target tumor tissue sparing normal cells by allowing precise dose only into tumor cells. However, the cellular and molecular mechanisms by which proton beam induces tumor cell death are still undefined. We irradiated three different tumor cells (LLC, HepG2, and Molt-4) with low energy proton beam (35 MeV) with spread out Bragg peak (SOBP) in vitro, and investigated cell death by MTT or CCK-8 assay at 24 h after irradiation. LLC and HepG2 cells were sensitive to proton beam at over 10 Gy to induce apoptosis whereas Molt-4 showed rather low sensitivity. Relative biological effectiveness (RBE) values for the death rate relative to gamma-ray were ranged from 1.1 to 2.3 in LLC and HepG2 but from 0.3 to 0.7 in Molt-4 at 11 d after irradiation by colony formation assay. The typical apoptotic nuclear DNA morphological pattern was observed by staining with 4'-6-diamidino-2-phenylindole (DAPI). Tiny fragmented DNA was observed in HepG2 but not in Molt-4 by the treatment of proton in apoptotic DNA fragment assay. By FACS analysis after stained with FITC-Annexin-V, early as well as median apoptotic fractions were clearly increased by proton treatment. Proton beam-irradiated tumor cells induced a cleavage of poly (ADP-ribose) polymerase-1 (PARP-1) and procaspases-3 and -9. Activity of caspases was highly enhanced after proton beam irradiation. Reactive oxygen species (ROS) were significantly increased and N-acetyl cysteine pretreatment restored the apoptotic cell death induced by proton beam. Furthermore, p38 and JNK but not ERK were activated by proton and dominant negative mutants of p38 and JNK revived proton-induced apoptosis, suggesting that p38 and JNK pathway may be activated through ROS to activate apoptosis. In conclusion, our data clearly showed that single treatment of low energy proton beam with SOBP increased ROS and induced cell death of solid tumor cells (LLC and HepG2) in an apoptotic cell death program by the induction of caspases activities.

[Cyclooxygenase; prevention and treatment]

Cyclooxygenase [COX] is the key enzyme required for the conversion of arachidonic acid to prostaglandins. Two cycloxygenase isoforms have been identified and are referred to as COX-I and COX-2. Both enzymes are blocked by nonselective anti-inflammatory drugs [NSAID], such as indomethacin and ibuprofen. COX-I is an enzyme normally found in tissues and is involved in physiological functions, while COX-2 is an acute phase reactant associated with inflammation. Recently, COX-2 has been found to be associated with hyperalgesia, angiogenesis, cancer and Alzheimers disease. The suggestion that COX-2 is causally linked to cancer offers a new approach to extending our knowledge about the neoplastic phenomenon and improving management of human malignant diseases

WNKs: protein kinases with a unique kinase domain

WNKs (with-no-lysine [K]) are a family of serine-threonine protein kinases with an atypical placement of the catalytic lysine relative to all other protein kinases. The roles of WNK kinases in regulating ion transport were first revealed by the findings that mutations of two members cause a genetic hypertension and hyperkalemia syndrome. More recent studies suggest that WNKs are pleiotropic protein kinases with important roles in many cell processes in addition to ion transport. Here, we review roles of WNK kinases in the regulation of ion balance, cell signaling, survival, and proliferation, and embryonic organ development.

Blancos Moleculares / Molecular Targets

Los blancos moleculares utilizan los conocimientos adquiridos sobre los mecanismos que regulan el crecimiento celular. Las células tumorales se caracterizan por su autonomía de proliferación. Esta condición se obtiene por una alteración de la respuesta a las señales que regulan la multiplicación, por la inhibición de la muerte celular programada luego de un daño al ADN, por su capacidad para estimular la formación de nuevos vasos y por la habilidad para invadir y dar origen a metástasis. Cada uno de estos procesos es susceptible de ser blanco de una acción terapéutica. Se han logrado resultados clínicos bloqueando los receptores de membrana encargados de recibir señales de proliferación, mediante el uso de anticuerpos monoclonales como el rituximab, en linfomas, la herceptina, en cáncer de mama y el cetuximab en cáncer en colon, cabeza y cuello. También se ha logrado frenar la acción de estos receptores inhibiendo la actividad de tirosina kinasa de los receptores de membrana activados, mediante moléculas como el imatinib (leucemia mieloide crónica), gefitinib y erlotinib (cáncer de pulmón y páncreas). Otra estrategia exitosa ha sido inhibir la formación de nuevos vasos (neo angiogénesis). Un anticuerpo monoclonal dirigido contra un estimulador fundamental de este proceso el factor de crecimiento del endotelio vascular (VEGF) ha demostrado ser activo en cáncer de colon, mama y pulmón. Finalmente, se están desarrollando moléculas con blancos múltiples. Un ejemplo es el sunitinib que actúa sobre receptores de los pericitos y células endoteliales (actividad anti angiogénica) y sobre receptores de la membrana de las células tumorales (acción anti proliferativa directa) y ha logrado éxito en el tratamiento del cáncer renal metastásico y los GIST. Se espera, en los próximos años, el desarrollo de estrategias de bloqueos múltiples, las que permitirán una mayor actividad de este tipo de terapia

Famacogénica del cáncer: Estudio de variaciones genéticamente determinadas en la susceptibilidad a cáncer por exposición a xenobióticos / Cancer pharmacogenetics: Study of genetically determined variations on cancer susceptibility due to xenobiotic exposure

Pharmacogenetics is the study of genetically determined variations in the response to drugs and toxic agents, and their implications on disease. Recently, the discipline has acquired great relevancy due to the development of non-invasive molecular techniques that identify genetic variants in human beings. There is also a need to explain the individual differences in susceptibility to drug actions and disease risk. Genetic variants can modify the magnitude of a pharmacologic effect, toxicity threshold, secondary effects and drug interactions. There are approximately thirty families of drug-metabolizing enzymes with genetic variants that cause functional alterations and variations in pharmacologic activity. We summarize the general knowledge about genetic variants of biotransformation enzymes, their relationship with cancer risk and the role of ethnicity. Cancer pharmacogenetics is another promising and exciting research area that will explain why people with an almost identical group of genes, have a different susceptibility to cancer, whose etiology has genetic and environmental components.

Cytosolic sulfotransferases.

Sulfoconjugation (Sulfation or Sulfonation) is an important reaction in the phase II biotransformation of a wide number of endogenous and foreign chemicals, including: drugs, toxic chemicals, hormones, and neurotransmitters. The reaction is catalyzed by the members of the cytosolic sulfotransferase (SULT) superfamily, consisting of ten functional genes in humans. Sulfation reaction in living cells is reversed by sulfatase, which hydrolyses the sulfonated conjugates. It has a major role in regulating the endocrine status of an individual by modulating the activity of steroid hormones, their biosynthesis, and the metabolism of catecholamines. Sulfonation is a key reaction in the body's 'chemical' defense against xenobiotics. Although the primary function of sulfoconjugation is to permit detoxification of the compound, it also results in the activation of chemical procarcinogens, such as certain dietary and environmental agents into carcinogens. In this review, we summarize our current understanding of the structure of mammalian cytosolic sulfotransferases and their role in human steroid associated cancers and in the bioactivation of chemical carcinogens.

Kinetic studies and electrophoretic separation of alkaline phosphatase isoenzyme from cancerous patients

The activity of sALP was determined by the calorimetric method King Armistrong in serum of 303 cancerous patients and 42 normal healthy controls. The results show that the ALP activity was increased in all types of cancer tissues, however ALP activity show a significant increase only in bone, liver and pancreas tissues. The increase of ALP activity could be used as tumor marker for bone, liver and pancreas tissues. The increase in sALP activity could be used as tumor marker for bone and liver cancer and to detect metastasis to the organ. No significant differences of sALP activity were found between males and females. The activity was increased with the stage of development of the disease. The kinetic studies for normal healthy human were measured at a substrate concentration 10 mM, Km 2.7 mM, temperature 370c and pH,o. The electrophoretic studies show that one band of ALP in serum of norma subjects, as compared to cancerous patients where several bands were detected in cancer patients; the intensity of band color varied with type; age and stage of disease

Radiosensitization by targeting radioresistance-related genes with protein kinase A inhibitor in radioresistant cancer cells

Here we determined which radiation-responsive genes were altered in radioresistant CEM/IR and FM3A/IR variants, which showed higher resistance to irradiation than parental human leukemia CEM and mouse mammary carcinoma FM3A cells, respectively and studied if radioresistance observed after radiotherapy could be restored by inhibition of protein kinase A. The expressions of DNA-PKcs, Ku70/80, Rad51 and Rad54 genes that related to DNA damage repair, and Bcl-2 and NF-kappaB genes that related to antiapoptosis, were up-regulated, but the expression of proapototic Bax gene was down-regulated in the radioresistant cells as compared to each parental counterpart. We also revealed that the combined treatment of radiation and the inhibitor of protein kinase A (PKA) to these radioresistant cells resulted in synergistic inhibition of DNA-PK, Rad51 and Bcl-2 expressions of the cells, and consequently restored radiosensitivity of the cells. Our results propose that combined treatment with radiotherapy and PKA inhibitor can be a novel therapeutic strategy to radioresistant cancers.

Association of DNA-dependent protein kinase with hypoxia induciblefactor-1 and its implication inresistance to anticancer drugs in hypoxic tum or cells

Tumor hypoxia contributes to the progression of a malignant phenotype and resistance to ionizing radiation and anticancer drug therapy. Many of these effects in hypoxic tumor cells are mediated by expression of specific set of genes whose relation to therapy resistance is poorly understood. In this study, we revealed that DNA-dependent protein kinase (DNA-PK), which plays a crucial role in DNA double strand break repair, would be involved in regulation of hypoxia inducible factor-1 (HIF-1). HIF-1beta-deficient cells showed constitutively reduced expression and DNA-binding activity of Ku, the regulatory subunit of DNA-PK. Under hypoxic condition, the expression and activity of DNA- PK were markedly induced with a concurrent increase in HIF-1alpha expression. Our result also demonstrated that DNA-PK could directly interact with HIF- and especially DNA-PKcs, the catalytic subunit of DNA-PK, could be involved in phosphorylation of HIF-1alpha, suggesting the possibility that the enhanced expression of DNA- PK under hypoxic condition might attribute to modulate HIF-1alpha stabilization. Thus, the correlated regulation of DNA-PK with HIF-1 could contribute to therapy resistance in hypoxic tumor cells, and it provides new evidence for developing therapeutic strategies enhancing the efficacy of cancer therapy in hypoxic tumor cells.

Frequencies of GSTM1, GSTT1, and GSTP1 polymorphisms in a Brazilian population

The glutathione S-transferase (GST) family of enzymes has a vital role in phase II of biotransformation of environmental carcinogens, pollutants, drugs and other xenobiotics. GSTs are polymorphic, with the type and frequency of polymorphism being ethnic dependent. Polymorphisms in GST genes have been shown to be associated with susceptibility to disease and disease outcome. We determined the frequencies of GSTM1, GSTT1 and GSTP1 polymorphisms in 591 volunteers who had been residents of Rio de Janeiro for at least six months. Blood was collected and DNA extracted by proteinase K/SDS digestion. Information about social habits and health problems was also recorded. GSTM1 and GSTT1 polymorphisms were analyzed by a PCR-Multiplex procedure, whereas GSTP1 polymorphism was analyzed by PCR-RFLP. We found that 42.1% (48.9% of whites and 34.2% of non-whites) of the individuals had the GSTM1 null genotype, whereas 25.4% (25.1% of whites and 25.7% of non-whites) had the GSTT1 null genotype. The genotypic distribution of GSTP1 was 49.7% I/I, 38.1% I/V, and 12.2% V/V, whereas the allelic frequencies were 0.69 for the Ile allele, and 0.31 for the Val allele. The frequencies of GST polymorphisms in this Brazilian population were found to be different from those observed in other populations, particularly of other South American countries.