Following placement of the filter membrane over the lower wells,

Following placement of the filter membrane over the lower wells, 25 µl cells (2 × 105) were added to the upper chamber of each well. check details The plate was incubated for 4 h at 37°C with 5% CO2. Inserts were removed, and the number of neutrophils that migrated into the bottom chamber was determined by counting using a haemocytometer and trypan blue. For each experiment, the % migration after subtraction of the control (RPMI medium alone) was given for KC alone (no anti-KC)

and for two concentrations of anti-KC antibody. To establish an efficient model to track and quantify neutrophil migration, we developed a neutrophil trafficking model using a luc+ transgenic donor mouse line in conjunction with bioluminescent imaging. Expression of the luciferase reporter gene is detectable in all tissues including white blood cells of the transgenic β-actin-luc+ mice. It has been demonstrated that luc+ cells emit visible light photons that penetrate tissues and are detectable externally and quantitatively with high sensitivity see more [22]. Thus, 4 × 106luc+ donor neutrophils were adoptively transferred intravenously (i.v.) via

the tail-vein of wild-type FVB/N recipients with DSS-induced colitis. Naive wild-type FVB/N mice with or without transferred luc+ donor neutrophils were included as appropriate control groups. Bioluminescence imaging was performed as described previously [23], using an IVIS 100 Janus kinase (JAK) charge-coupled device (CCD) imaging system (Xenogen, Alameda, CA, USA) at 2, 4, 16–22 h post-adoptive cell transfer. Briefly, the recipient mice were injected i.p. with the exogenous substrate d-luciferin (120 mg/kg body weight) (BioThema

AB, Handen, Sweden) following gaseous anaesthesia with isoflurane, and transferred to the imaging chamber. Emission images were collected with 2 min integration times. Following the whole-body bioluminescent imaging, the mice were injected with an additional dose of d-luciferin. Five minutes later, the mice were killed and the organs were removed and imaged for 2 min. The bioluminescent signal was quantified by creation of regions of interest (ROIs). To standardise the data, light emission was quantified from the same surface area (ROI) for each organ type. In addition, background light emission, taken from ROIs created on organs of non-recipient non-DSS control animals, was subtracted from test organs. Imaging data were analysed and quantified with Living Image Software (Xenogen) and expressed as photons/s/cm2. DSS recipient mice (three and five, respectively) received purified isotype control rat IgG2aκ (BD Pharmingen) or a monoclonal rat anti-mouse CXCL1/KC antibody (R&D Systems) at a concentration of 20 µg/mouse i.p., 1 h pre-adoptive transfer of the luc+ peritoneal neutrophils.

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