OBJECTIVE: A multitude of factors promotes inflammation in the reproductive tract leading to preterm birth. Macrophages peak in the cervix prior to birth and their numbers are increased by the cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF). We hypothesize GM-CSF is produced from multiple sites in the genital tract and is a key mediator in preterm birth. STUDY DESIGN: Ectocervical, endocervical, and amniotic fluid mesenchymal stem cells were treated with lipopolysaccharide (LPS), and the concentration and expression of GM-CSF was measured. Pregnant CD-1 mice on gestational day 17 received LPS and an intravenous injection of either anti-mouse GM-CSF or control antibody. After 6 hours, the preterm birth rate was recorded. RESULTS: Treatment with LPS increased the GM-CSF concentration and messenger RNA expression after 24 hours in all 3 cell lines ( P < .01). Mice treated with LPS and the GM-CSF antibody had a preterm birth rate of 25%, compared to a 66.7% preterm birth rate in controls, within 6 hours ( P < .05, χ2). Treatment with the anti-mouse GM-CSF antibody decreased the concentration of GM-CSF in the mouse serum ( P < .01) but did not alter the number of macrophages or collagen content in the cervix. CONCLUSION: These studies demonstrate that GM-CSF is produced from multiple sites in the genital tract and that treatment with an antibody to GM-CSF prevents preterm birth. Curiously, the anti-mouse GM-CSF antibody did not decrease the number of macrophages in the cervix. Further research is needed to determine whether antibodies to GM-CSF can be utilized as a therapeutic agent to prevent preterm birth.
OBJECTIVE: A multitude of factors promotes inflammation in the reproductive tract leading to preterm birth. Macrophages peak in the cervix prior to birth and their numbers are increased by the cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF). We hypothesize GM-CSF is produced from multiple sites in the genital tract and is a key mediator in preterm birth. STUDY DESIGN: Ectocervical, endocervical, and amniotic fluid mesenchymal stem cells were treated with lipopolysaccharide (LPS), and the concentration and expression of GM-CSF was measured. Pregnant CD-1mice on gestational day 17 received LPS and an intravenous injection of either anti-mouseGM-CSF or control antibody. After 6 hours, the preterm birth rate was recorded. RESULTS: Treatment with LPS increased the GM-CSF concentration and messenger RNA expression after 24 hours in all 3 cell lines ( P < .01). Mice treated with LPS and the GM-CSF antibody had a preterm birth rate of 25%, compared to a 66.7% preterm birth rate in controls, within 6 hours ( P < .05, χ2). Treatment with the anti-mouseGM-CSF antibody decreased the concentration of GM-CSF in the mouse serum ( P < .01) but did not alter the number of macrophages or collagen content in the cervix. CONCLUSION: These studies demonstrate that GM-CSF is produced from multiple sites in the genital tract and that treatment with an antibody to GM-CSF prevents preterm birth. Curiously, the anti-mouseGM-CSF antibody did not decrease the number of macrophages in the cervix. Further research is needed to determine whether antibodies to GM-CSF can be utilized as a therapeutic agent to prevent preterm birth.
Authors: Matthew W Kemp; Masatoshi Saito; John P Newnham; Ilias Nitsos; Kunihiro Okamura; Suhas G Kallapur Journal: Reprod Sci Date: 2010-07 Impact factor: 3.060
Authors: Michelle L Korir; Ryan S Doster; Jacky Lu; Miriam A Guevara; Sabrina K Spicer; Rebecca E Moore; Jamisha D Francis; Lisa M Rogers; Kathryn P Haley; Amondrea Blackman; Kristen N Noble; Alison J Eastman; Janice A Williams; Steven M Damo; Kelli L Boyd; Steven D Townsend; C Henrique Serezani; David M Aronoff; Shannon D Manning; Jennifer A Gaddy Journal: Nat Commun Date: 2022-09-14 Impact factor: 17.694
Authors: Jonathan M Greenberg; Roberto Romero; Andrew D Winters; Jose Galaz; Valeria Garcia-Flores; Marcia Arenas-Hernandez; Jonathan Panzer; Zachary Shaffer; David J Kracht; Nardhy Gomez-Lopez; Kevin R Theis Journal: Microbiol Spectr Date: 2022-08-02