A fifth category of manifestations regroups a number of heterogeneous behavioural alterations, including reluctance to suck, haphazard roaming, anorexia and weight loss ( Table 1). The multiple manifestations observed in enterotoxaemia caused by C. perfringens type D (which produces high amounts of ET) reveal a prominent alteration of the nervous system. For instance, opisthotonus or hypotonus, which are extra-pyramidal motor symptoms, indicates functional impairment of central structures involved in the control of body postures and movements, such as putamen, thalamus, caudate

nucleus and globus pallidus, or from alteration of the tracts connecting these structures. Manifestations that belong to the fifth Epigenetics inhibitor group ( Table 1) indicate some decline of cognitive function, either due to direct alteration of central nervous physiology or to pain. Diarrhoea and tenesmus are clinical signs of an ET action on the intestinal system, which may be, in part, a consequence of an effect of the toxin on the enteric nervous system. Indeed, there are increasing evidence indicating that some enterotoxins mediate diarrhoea not only by acting directly upon enterocytes, but also by interfering with the enteric nervous system ( Berkes et al., 2003; Farthing, 2004, 2000; Popoff and buy Alectinib Poulain, 2010). Elevated blood pressure ( Sakurai et al.,

1983) can be caused by renal damage and/or overstimulation of the ortho-sympathetic part of autonomic nervous system as suggested by observations of an increase in circulating monoamines levels ( Buxton, 1978b; Nagahama and Sakurai, 1993; Worthington et al., 1979). Several bodies of evidence support the notion that ET is the main etiological cause for the various manifestations of enterotoxaemia. Indeed, in vivo intoxication experiments performed in sheep, goats, lambs ( Buxton and Morgan, 1976; Griner, 1961; Uzal and Kelly, 1997) and cattle ( Uzal et al., 2002) leads to similar clinical signs as observed during the naturally occurring disease (see Table 1). Thus administration of ET can recapitulate the natural disease.

Many of the gross manifestations of enterotoxaemia can be reproduced in rodents by inoculating the bacteria or the toxin intragastrically ( Fernandez-Miyakawa et al., 2007b) or into the duodenum ( Blackwell et al., 1991; Fernandez-Miyakawa and Uzal, 2003; Uzal et al., buy Ponatinib 2002), as well as by administrating ET intravenously ( Uzal et al., 2002) or intraperitoneally ( Fernandez-Miyakawa et al., 2007a; Finnie, 1984a, 1984b; Finnie et al., 1999; Miyamoto et al., 2000, 1998). Studies in mice clearly show that the lethality of different C. perfringens strains is directly correlated with their ability to produce high levels of ET ( Fernandez-Miyakawa et al., 2007a, 2007b). This further supports the notion that ET is the causative virulence factor of all symptoms and lesions caused by C. perfringens type D ( Sayeed et al., 2005). C.

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