On the fourth week, the bone marrow cultures were recharged (fed as before, with 5 mL of growth medium containing a further 1 × 107 freshly isolated syngeneic femoral bone marrow cells from comparably aged mice as described by Gartner and Kaplan, 1980). Supernatants from LTBMC were harvested weekly from the 5th to 9th week of culture and frozen at −20 °C until required. The pooled cell suspensions were counted in a hemocytometer and centrifuged at 800g for 10 min, and the clonal growth of non-adherent progenitor cell populations was assayed weekly, as described in Section 2.4. The concentrations of IL-1α and IL-6 were evaluated in the supernatant of LTBMC. Cytokines
were quantified using a selleck compound sandwich ELISA (Enzyme-Linked ABT199 Immunosorbent Assay) in microtiter plates (96-well flat-bottom maxisorp microplate-NUNC, Roskilde, DM) using the following monoclonal antibodies purchased from R&D Systems: DuoSet® ELISA Development System Kit with purified anti-mouse IL-6 (Cat. DY406) and anti-mouse IL-1α/IL-1F1 (Cat. DY40). The cytokine levels were determined according to the R&D Systems cytokine ELISA protocol. Cytokine titers were expressed in pg per mL and were calculated by reference to standard curves constructed with known amounts of recombinant cytokines. For statistical analysis of changes in the progenitor cell assays, immunophenotyping, cytokine levels and colony-stimulating activity, analysis of variance (ANOVA
– two way) followed by the Bonferroni test was used to compare data among all groups. Statistical significance was reached when P < 0.05. The effects of CV treatment on the number of bone
marrow CFU-GM in animals subjected to SST or RST is demonstrated in Fig. 1A. The application of either SST or RST caused a significant PJ34 HCl reduction in CFU-GM (CTR: 18 ± 2 × 103, SST: 5 ± 1.5 × 103 and RST: 10 ± 1.5 × 103, P < 0.05). This reduction was higher in animals subjected to SST (SST: 5 ± 1.5 × 103 and RST: 10 ± 1.5 × 103, P < 0.05). The oral administration of 50 mg/kg of CV prevented the CFU-GM decrease in mice subjected to stressors, keeping CFU-GM numbers similar to control levels. CV treatment alone produced no changes in the number of CFU-GM in the bone marrow of normal mice. The effects of oral CV treatment were also evaluated on mature myeloid populations in animals subjected to both conditions (Fig. 1B). The percentage of Gr-1+Mac-1+ cells was reduced after SST and RST (CTR: 37 ± 3%, SST: 23 ± 1% and RST: 29 ± 2%, P < 0.05) with higher suppression after SST (23 ± 1%, P < 0.05). CV treatment prevented the changes induced by SST and RST on the Gr-1+Mac-1+ population, maintaining levels similar to those of the control group (CV + SST: 36 ± 2%, CV + RST: 41 ± 2% and CTR: 37 ± 3%). Representative histogram is demonstrated in Fig. 1C. The protective effects of CV oral treatment were also observed in B220+ (B lymphocyte) and CD3+ (T lymphocyte) lymphoid populations.