Resumo
Scorpion venoms are natural sources of molecules that have, in addition to their toxic function, potential therapeutic applications. In this source the neurotoxins can be found especially those that act on potassium channels. Potassium channels are responsible for maintaining the membrane potential in the excitable cells, especially the voltage-dependent potassium channels (Kv), including Kv1.3 channels. These channels (Kv1.3) are expressed by various types of tissues and cells, being part of several physiological processes. However, the major studies of Kv1.3 are performed on T cells due its importance on autoimmune diseases. Scorpion toxins capable of acting on potassium channels (KTx), mainly on Kv1.3 channels, have gained a prominent role for their possible ability to control inflammatory autoimmune diseases. Some of these toxins have already left bench trials and are being evaluated in clinical trials, presenting great therapeutic potential. Thus, scorpion toxins are important natural molecules that should not be overlooked in the treatment of autoimmune and other diseases.(AU)
Assuntos
Animais , Venenos de Escorpião/toxicidade , Canais de Potássio , Terapia de Imunossupressão/métodosResumo
Dois estudos foram realizados com vacas lactantes utilizadas como unidade experimental e doadoras de líquido ruminal, sendo as populações de bactérias utilizadas para avaliar a ação de níveis crescentes de lasalocida e monensina na resistência à perda de potássio intracelular, e para produção de gases in vitro. A perda de potássio (Kmax) da lasalocida foi menor para a população de bactérias obtidas do líquido de rúmen de vacas submetidas a dietas com monensina, óleo de soja e monensina mais óleo de soja (19,4 a 25,4 por cento) quando comparada com a perda de potássio em vacas submetidas a dietas sem ionóforo e óleo de soja (30,1 por cento). O mesmo ocorreu para a perda de potássio da monensina, em que o menor valor foi de 6,5 por cento para monensina mais óleo e o maior, de 29,5 por cento, para o controle. Necessita-se de alta concentração de monensina (Kd= 2,3µM), porém baixa de lasalocida (Kd= 0,2µM) para causar a metade da perda máxima de potássio intracelular da população de bactérias do rúmen de vacas submetidas a dietas com monensina. As populações de bactérias de vacas submetidas às dietas com monensina foram sensíveis à lasalocida. As amostras incubadas com própolis produziram menor volume de gases (12,9ml/100g de MS)(AU)
Two studies were carried out with lactating cows as experimental units and ruminal fluid donors. The ruminal bacteria population was used to evaluate the action of increasing levels of lasalocid and monensin on resistance of intracellular potassium depletion and in vitro gas production intracellular depletion potassium (Kmax) of lasalocid was lower to ruminal bacteria population obtained from rumen of cows fed diets with monensin, soybean oil and monensin plus soybean oil (19.4 to 25.4 percent) when compared to cows fed with control diet (30.1 percent). The same occurred for intracellular depletion potassium (Kmax) of monensin, in which the lowest value was 6.5 percent to monensin plus soybean oil and the greatest was 29.5 percent to control. High monensin concentration (Kd= 2.3µM) and low lasalocid concentration (Kd= 0.2µM) were necessary to cause half of maximum potassium depletion in ruminal bacteria population from cows fed diet with monensin. The ruminal bacteria population from cows feed diet with monensin were sensible to lasalocid. In vitro gas production showed the lowest volume when diets were incubated with propolis (12,9ml/100g of DM)(AU)