TY - JOUR
T1 - CCL1 released from M2b macrophages is essentially required for the maintenance of their properties
AU - Asai, Akira
AU - Nakamura, Kiwamu
AU - Kobayashi, Makiko
AU - Herndon, David N.
AU - Suzuki, Fujio
PY - 2012/10
Y1 - 2012/10
N2 - Patients with 10-30 days postburn injury are greatly susceptible to infections. M1MΦ{phonetic} (IL-10-IL-12+ MΦ{phonetic}) are essential cells in host antibacterial innate immunity against MRSA infections. However, these effector cells are not easily generated in hosts who are carriers of M2bMΦ{phonetic} (IL-12-IL-10+CCL1+LIGHT+ MΦ{phonetic}). M2bMΦ{phonetic} are inhibitory on M1MΦ{phonetic} generation. In this study, the antibacterial resistance of mice, 10-30 days postburn injury against MRSA infection, was improved by the modulation of M2bMΦ{phonetic} activities. Unburned mice inoculated with MΦ{phonetic} preparations from mice, 10-30 days after burn injury, were susceptible to MRSA infection, whereas unburned mice, inoculated with MΦ{phonetic} preparations from the same mice that were previously treated with CCL1 antisense ODN, were resistant to the infection. M2bMΦ{phonetic}, isolated from Day 15 burn mice, lost their M2bMΦ{phonetic} properties 3 days after cultivation under frequent medium changes, whereas their M2bMΦ{phonetic} properties remained in the same cultures supplemented with rCCL1. In cultures, MΦ{phonetic} preparations from Day 15 burn mice treated with CCL1 antisense ODN did not produce CCL1 and did convert to M1MΦ{phonetic} after heat-killed MRSA stimulation. Also, Day 15 burn mice treated with the ODN became resistant against MRSA infection. These results indicate that CCL1 released from M2bMΦ{phonetic} is essentially required for the maintenance of their properties. The increased susceptibility of mice, 10-30 days after burn injury to MRSA infection, may be controlled through the intervention of CCL1 production by M2bMΦ{phonetic} appearing in association with severe burn injuries.
AB - Patients with 10-30 days postburn injury are greatly susceptible to infections. M1MΦ{phonetic} (IL-10-IL-12+ MΦ{phonetic}) are essential cells in host antibacterial innate immunity against MRSA infections. However, these effector cells are not easily generated in hosts who are carriers of M2bMΦ{phonetic} (IL-12-IL-10+CCL1+LIGHT+ MΦ{phonetic}). M2bMΦ{phonetic} are inhibitory on M1MΦ{phonetic} generation. In this study, the antibacterial resistance of mice, 10-30 days postburn injury against MRSA infection, was improved by the modulation of M2bMΦ{phonetic} activities. Unburned mice inoculated with MΦ{phonetic} preparations from mice, 10-30 days after burn injury, were susceptible to MRSA infection, whereas unburned mice, inoculated with MΦ{phonetic} preparations from the same mice that were previously treated with CCL1 antisense ODN, were resistant to the infection. M2bMΦ{phonetic}, isolated from Day 15 burn mice, lost their M2bMΦ{phonetic} properties 3 days after cultivation under frequent medium changes, whereas their M2bMΦ{phonetic} properties remained in the same cultures supplemented with rCCL1. In cultures, MΦ{phonetic} preparations from Day 15 burn mice treated with CCL1 antisense ODN did not produce CCL1 and did convert to M1MΦ{phonetic} after heat-killed MRSA stimulation. Also, Day 15 burn mice treated with the ODN became resistant against MRSA infection. These results indicate that CCL1 released from M2bMΦ{phonetic} is essentially required for the maintenance of their properties. The increased susceptibility of mice, 10-30 days after burn injury to MRSA infection, may be controlled through the intervention of CCL1 production by M2bMΦ{phonetic} appearing in association with severe burn injuries.
KW - Burn
KW - CCL1
KW - M2b macrophages
KW - MRSA
UR - http://www.scopus.com/inward/record.url?scp=84868088824&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84868088824&partnerID=8YFLogxK
U2 - 10.1189/jlb.0212107
DO - 10.1189/jlb.0212107
M3 - Article
C2 - 22730547
AN - SCOPUS:84868088824
SN - 0741-5400
VL - 92
SP - 859
EP - 867
JO - Journal of Leukocyte Biology
JF - Journal of Leukocyte Biology
IS - 4
ER -