Development of an Innovative Method for Combating Blood-Sucking Diptera insects

This article describes an innovative method for regulating populations of blood-sucking Diptera that parasitize cows. This relates to the field of agriculture, namely to the means of protecting farm animals from insect bites, and can be used to protect farm animals from ectoparasites during the period of their grazing. To produce these products, the polymer was treated with an impregnating solution containing pyrethroid (2-26% by weight of the untreated polymer product), an inhibitor of arthropod detoxification enzyme systems (0.5-20.0%), a lubricant (0.1-3.0%) and an aliphatic ketone (5-90%). The method was simple in execution, and the insecticidal acaricidal polymer products obtained according to the method had a long shelf life of at least seven months. The products were resistant to environmental influences and did not lead to environmental pollution with excess active substances. Keywords: Ear tags, s-fenvalerate, piperonyl butoxide, Diptera

Peculiarities of the reactions of a,b-unsaturated g-bromoketones with hydrazine derivatives

The reaction result of a,b-unsaturated g-bromoketones with hydrazines depends on the structure of the reagents. Reaction with hydrazine hydrate leads to the mixture of 3,5- di(R)pyridazine, 3,6-di(R)pyridazine and 2,4-di(R)-1H-pyrrol-1-amine derivatives. The formation of three types of products is due to the structure of the unsaturated aliphatic ketone. Two competing reaction schemes of ketones with hydrazines are considered, which include condensation or Michael-type addition in the first stage. The main products of the reactions of halogen-substituted derivatives of g-bromodipnone with arylhydrazines are 1,3,5-triaryl-1,6-dihydropyridazines, which easily form aromatic salts under reaction conditions (when heated in EtOH).

Mammal pollinators lured by the scent of a parasitic plant

To communicate with animals, plants use signals that are distinct from their surroundings. Animals generally learn to use these signals through associative conditioning; however, signals are most effective when they elicit innate behavioural responses. Many plant species have flowers specialized for pollination by ground-dwelling mammals, but the signals used to attract these pollinators have not been elucidated. Here, we demonstrate the chemical basis for attraction of mammal pollinators to flowers of the dioecious parasitic plant Cytinus visseri (Cytinaceae). Two aliphatic ketones dominate the scent of this species; 3-hexanone, which elicits strong innate attraction in rodents, and 1-hexen-3-one, which repels them in isolation, but not in combination with 3-hexanone. The aliphatic ketone-dominated scent of C. visseri contrasts with those of insect-pollinated plants, which are typically dominated by terpenoids, aromatic or non-ketone aliphatic compounds. 3-hexanone is also known from some bat-pollinated species, suggesting independent evolution of plant signals in derived, highly specialized mammal-pollination systems.

LACK of IRON Binding by Pixantrone IS ASSOCIATED with Reduced PRODUCTION of Reactive Oxygen SPECIES and Myoctye Cytotoxicity IN VITRO.

Abstract 4806 Introduction Pixantrone (PIX), an aza-anthracenedione, which has successfully completed a phase 3 trial (J Clin Oncol 2009; 27:15s, No. 8523) was designed to enhance clinical efficacy while significantly decreasing cardiotoxicity compared to doxorubicin (DOX) and mitoxantrone (MIT). Multidose administration, in animal models of equitoxic doses of PIX, MIT, and DOX, with or without prior therapy with DOX, resulted in minimal evidence for PIX cardiotoxicity compared with the severe histologic lesions seen with these other agents (Cavaletti et al: Investigational New Drugs 2007; 3:187-95). Both DOX and MIT contain a dihydroquinone structural element known to interact with iron. Additionally, DOX contains an aliphatic ketone which, once metabolized to the corresponding secondary alcohol metabolite doxorubicinol, is implicated in release of free iron and the chronic cardiotoxicity observed with DOX. In contrast, PIX has a nitrogen containing heterocycle which replaces the dihydroquinone, forming an aza-anthracenedione structure. PIX also does not contain an aliphatic ketone and cannot form metabolites analogous to doxorubicinol. Methods To validate the proposed mechanisms underlying the observed differences in cardiotoxicity, we used established spectrophotometric techniques to quantify iron:drug interactions that are thought to be mechanistic for chronic doxorubicin cardiotoxicity (Menna et al: Cardiovasc Toxicol 2007; 7:80–85). Results Adding increasing amounts of iron to drug solution, we observed that DOX and MIT underwent changes in visible range absorbance patterns, characteristic of drug:iron complex formation, confirming the expected 1:3 Fe(II)-drug ratio for both DOX and MIT. In contrast, no spectrophotometric changes were observed with iron added to PIX, clearly demonstrating that PIX does not bind iron. In vitro studies using H2C9 rat myocardial cells indicate that PIX (ID50 >50 μg/ml) is far less toxic than DOX (ID50= 1 μ/ml). Moreover, PIX does not induce significant reactive oxygen species (ROS) production in the H2C9 cells compared to DOX. Conclusion These results demonstrate that PIX does not bind iron and that its inability to bind iron and its reduced propensity to generate ROS may be the mechanism for reduced PIX cardiotoxicity in animal models compared to DOX or MIT. Disclosures: McKennon: Cell Therapeutics, Inc: Employment. Singer:Cell Therapeutics, Inc: Employment.