The NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines ®) are a statement of consensus of the authors regarding their views of currently accepted approaches to treatment. The NCCN Guidelines ® Insights highlight important changes in the NCCN Guidelines ® recommendations from previous versions. Colored markings in the algorithm show changes and the discussion aims to further understanding of these changes by summarizing salient portions of the panel's discussion, including the literature reviewed. The NCCN Guidelines Insights do not represent the full NCCN Guidelines; further, the National Comprehensive Cancer Network® (NCCN ®) makes no representation or warranties of any kind regarding the content, use, or application of the NCCN Guidelines and NCCN Guidelines Insights and disclaims any responsibility for their applications or use in any way. The full and most current version of these NCCN Guidelines is available at NCCN.org.
The NCCN Guidelines for Cancer-Associated Venous Thromboembolic Disease outline strategies for treatment and prevention of venous thromboembolism (VTE) in adult patients with a diagnosis of cancer or for whom cancer is clinically suspected. VTE is a common complication in patients with cancer, which places them at greater risk for morbidity and mortality. Therefore, risk-appropriate prophylaxis is an essential component for the optimal care of inpatients and outpatients with cancer. Critical to meeting this goal is ensuring that patients get the most effective medication in the correct dose. Body weight has a significant impact on blood volume and drug clearance. Because obesity is a common health problem in industrialized societies, cancer care providers are increasingly likely to treat obese patients in their practice. Obesity is a risk factor common to VTE and many cancers, and may also impact the anticoagulant dose needed for safe and effective prophylaxis. These NCCN Guidelines Insights summarize the data supporting new dosing recommendations for VTE prophylaxis in obese patients with cancer.
While targeting oxidative phosphorylation (OXPHOS) is a rational anticancer strategy, patient bene t with OXPHOS inhibitors in the clinic has yet to be achieved. Based on promising preclinical data, we advanced IACS-010759, a highly potent and selective small-molecule inhibitor of mitochondrial complex I, into two phase I trials in patients with acute myeloid leukemia (NCT02882321) or advanced solid tumors (NCT03291938). Clinical ndings revealed that IACS-010759 had a narrow therapeutic index with emergent dose-limiting toxicities that included elevated blood lactate and neurotoxicity, obstructing efforts to maintain target plasma exposure. Consequently, only modest on-target inhibition and limited antitumor activity were observed. Follow-up reverse translational studies uncovered that IACS-010759 reduced oxygen consumption rates in neurons and damaged myelin. Further, IACS-010759-treated mice displayed behaviors indictive of neuropathy, which were minimized with the co-administration of a histone deacetylase 6 inhibitor. Our ndings urge caution in the continued development of complex I inhibitors as antitumor agents.
Defining tumor cell immune evasion Mouse models used to study cancer often lack a full immune system, allowing implantation of human tumors into the mice. By contrast, naturally evolving tumors must contend with a fully functional immune system and its destruction of some of the cells (see the Perspective by Ho and Wood). Two groups now report studies on mouse models with a fully intact immune system. Martin et al . started with preexisting murine tumor cell lines and examined their continued evolution in vivo, whereas Del Poggetto et al . examined the development of new pancreatic tumors in the context of inflammation, as is often seen in human patients. In each study, the authors found that the immune system exerted a selective pressure on cells that would give rise to tumors, promoting the survival of those that had lost expression of tumor suppressor genes or activated a specific oncogene. The findings suggest a major role for the immune system in driving tumor evolution across multiple types of cancer. —YN
OverviewVenous thromboembolism (VTE) is a common and life-threatening condition in patients with cancer.1,2 Results from a retrospective study of hospitalized adult patients with cancer with neutropenia (N=66,106) showed that approximately 3% to 12% of these patients, depending on the type of malignancy, experienced VTE during their first hospitalization.1 In a recent health claims database analysis of patients undergoing chemotherapy for solid tumors in the ambulatory setting (N=17,284), VTE NCCN Venous Thromboembolic Disease Clinical Practice Guidelines in Oncology AbstractVenous thromboembolism (VTE) remains a common and life-threatening complication among patients with cancer. Thromboprophylaxis can be used to prevent the occurrence of VTE in patients with cancer who are considered at high risk for developing this complication. Therefore, it is critical to recognize the various risk factors for VTE in patients with cancer. Risk assessment tools are available to help identify patients for whom discussions regarding the potential benefits and risks of thromboprophylaxis would be appropriate. The NCCN Clinical Practice Guidelines in Oncology for VTE provide recommendations on risk evaluation, diagnosis, prevention, and treatment of VTE in patients with cancer. (JNCCN 2013;11:1402-1429 NCCN Categories of Evidence and ConsensusCategory 1: Based upon high-level evidence, there is uniform NCCN consensus that the intervention is appropriate. Category 2A: Based upon lower-level evidence, there is uniform NCCN consensus that the intervention is appropriate. Category 2B: Based upon lower-level evidence, there is NCCN consensus that the intervention is appropriate. Category 3: Based upon any level of evidence, there is major NCCN disagreement that the intervention is appropriate. These guidelines are also available on the Internet. For the latest update, visit NCCN.org.
X-Ray crystal structure of a novel
The five-membered nitrogen plus heteroatom rings known as azolines or in their oxidized form as azoles are very common in natural products and drugs. The oxidation of thiazoline to thiazole in the cyanobactin class of natural products is one of the several important transformations that are known to alter the biological properties of the compound. The ordering of the various chemical reactions that occur during cyanobactin biosynthesis is not fully understood. The structure of the flavin-dependent enzyme responsible for the oxidation of multiple thiazolines reveals it contains an additional domain that in other enzymes recognizes linear peptides. We characterize the activity of the enzyme on two substrates: one with a peptide leader and one without. Kinetics and biophysics reveal that the leader on the substrate is not recognized by the enzyme. The enzyme is faster on either substrate than the macrocyclase or protease in vitro. The enzyme has a preferred order of oxidation of multiple thiazolines in the same linear peptide.
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