No macromolecular damages were observed after exposure, considering the protein carbonylation (p > 0.4909; Fig. 3G) and DNA comet test (p > 0.0505; Table 2). However, an increase of 35% occurred for lipid peroxidation after exposure to the highest cylindrospermopsin concentration (10 μg l−1) in comparison with the Fulvestrant research buy control group ( Fig. 3H). The liver

is the major site of xenobiotic metabolism, being involved in the maintenance of homeostasis in vertebrates. When freshly isolated and cultured, intact hepatocytes retain metabolic and functional characteristics that are closer to the in vivo situation than those of established cell lines (Segner, 1998 and Zucco et al., 2004). Therefore, primary hepatocyte culture represents a valuable model for mechanistic and toxicity studies. Currently, there are few protocols for isolation of Neotropical fish hepatocytes (Bussolaro et al., 2010 and Filipak Neto et al., 2006).

In the current study, six isolation procedures with variations on the presence and type of protease were Rapamycin datasheet tested. Although two step perfusion with a Ca2+ chelating agent such as EDTA and collagenase has been the most used protocol to obtain high yields of viable liver cells from different species of mammals and fishes (Naik et al., 2007 and Yanhong et al., 2008), the protocol using dispase at 1 U ml−1 was the most efficient for P. lineatus hepatocyte isolation. Importantly, cell yield was enough to allow biochemical and other analyses to be performed with cells

obtained from a single adult fish, although P. lineatus cell yield had been lower than that reported for other Brazilian teleosts, H. malabaricus ( Filipak Neto et al., 2006) and H. commersoni ( Bussolaro et al., 2010), probably due to interspecies differences in the degree of cell attachments. Additionally, incubation of liver pieces for an extended period of up Mannose-binding protein-associated serine protease to 3 h did not decrease cell viability. Concluding, the strong attachment of liver cells from P. lineatus made difficult to dissociate the hepatocytes comparatively with those two Neotropical fish species, and so the non-enzymatic protocol has not worked out. Another important issue to be considered in hepatocyte primary culture is cell density, since it can affect the functioning and maintenance of hepatocyte viability and liver-specific functions (Nakamura et al., 1983 and Hayashi and Ooshiro, 1986). For P. lineatus hepatocytes, 1.0 × 106 cells ml−1 of culture medium or 4 × 105 cells cm−2 cell culture flask/plate surface was the appropriated density for attachment and maintenance of viable cells for up to 7 days. Attachment was not improved by pretreatments of the culture plates as observed in phase contrast microscopy, and intercellular contacts were recreated with and without any pretreatment; these contacts are required for hepatocytes survival in vitro ( Filipak Neto et al., 2006 and Bussolaro et al., 2010).