Contractile profile of esophageal and gastric fundus strips in experimental doxorubicin-induced esophageal atresia

Esophageal atresia (EA) is characterized by esophageal and gastric motility changes secondary to developmental and postsurgical damage. This study evaluated the in vitro contractile profile of the distal esophagus and gastric fundus in an experimental model of EA induced by doxorubicin (DOXO). Wistar pregnant rats received DOXO 2.2 mg/kg on the 8th and 9th gestational days. On day 21.5, fetuses were collected, sacrificed, and divided into groups: control, DOXO without EA (DOXO-EA), and DOXO with EA (DOXO+EA). Strips from the distal esophagus and gastric fundus were mounted on a wire myograph and isolated organ-bath system, respectively, and subjected to increasing concentrations of carbamylcholine chloride (carbachol, CCh). The isolated esophagus was also stimulated with increasing concentrations of KCl. In esophagus, the concentration-effect curves were reduced in response to CCh in the DOXO+EA and DOXO-EA groups compared to the control group (P<0.05). The maximum effect values (Emax) for DOXO+EA and DOXO-EA were significantly lower than control (P<0.05), but the half-maximal effective concentration (EC50) values were not significantly different when the three groups were compared (P>0.05). In response to KCl, the distal esophagus samples in the three groups were not statistically different with regard to Emax or EC50 values (P>0.05). No significant difference was noted for EC50 or Emax values in fundic strips stimulated with CCh (P>0.05). In conclusion, exposure of dams to DOXO during gestation inhibited the contractile behavior of esophageal strips from offspring in response to CCh but not KCl, regardless of EA induction. The gastric fundus of DOXO-exposed offspring did not have altered contractile responsiveness to cholinergic stimulation.

Pertussis toxin from Bordetella pertussis blocks neutrophil migration and neutrophil-dependent edema in response to inflammation

Pertussis toxin (Ptx) is a hexameric protein with classical AB architecture produced by Bordetella pertussis. The aim of this study was to investigate the effect og Ptx on migration of polymorphonuclear leukocytes to site of inflamation and on cell- dependent edema. Ptx was purified from the supernatant of the culture medium of B. pertussis using hydroxylapatite chromatography and fetuin affinity chromatography. Ptx induced a maximal clusterin of Chinese hamster ovary cells at concentration as low as 0.1 ng/ ml. Intravenous inection of Ptx (400 ng) significantly blocked the neutrophil migration induced by 200 ng of lipopolysaccharide (LPS from E. coli O111:B4; 2.27 ñ 0.13 vs 0.61 ñ 0.16 per 10**6 neutrophils/ml; P < 0.001; N = 5) and by 200 ng of formylmethionyl-leucyl-phenylalanine(fMLP; 2.53 ñ 0.45 vs 0.75 ñ 0.14 per 10**6 neutrophils/ml; P < 0.01; N=6) into the peritoneal cavities of male Wistar rats (eighing 150-180). In addition, Ptx (400ng) pretreatment also blocked the edema induced by intraplantar injection of 100 µg carrageenin ( increase in volume: 0.667 ñ 0.087 vs 0.313 ñ 0.058 ml; P < 0.01; N = 5) but not the edema induced by 100 µg dextran ( increase in volume: 0.537 ñ 0.06 vs 0.385 ñ 0.076 ml; P > 0.05; N = 5). These data demonstrate that Ptx blocked neutrophil migration induced by a direct f MLP stimulus of a site of inflammation. In addition, this toxin blocks the indirect stimulus of LPS on neutrophil migration. Furthermore, Ptx also inhibits the neutrophil-dependent edema induced by carrageenin, but not the edema induced by dextran that is in part dependent on basophil cells. These results warrant further studies on the mechanisms of Ptx inhibition of neutrophil-dependent edema and cell migration