PROBLEM: Th2 cytokines and Fas/Fas ligand interactions are proposed to be part of the placental barrier that contribute to the success of allogeneic pregnancy. To fully understand the role regulation of Th2 cytokines, we must isolate and identify the cells that produce them. We also need to assess the requirement for Fas/Fas ligand interaction in facilitating a successful allogeneic pregnancy. METHOD OF STUDY: To assess the site of production of Th2 cytokines, we used immunohistochemistry sections from placental and decidual tissue obtained at various stages of gestation in mice and humans. We used mice that are genetically deficient in Fas/Fas ligand interactions and raised specific anti-paternal CTLs by anti-paternal immunization of the mother before mating. RESULTS: The detailed results show that in both species the bulk of Th2 production may come from non-lymphoid tissues in the placenta and decidua, with a major role for trophoblasts. This raises questions about the mechanism(s) by which alloimmunization enhances local Th2 cytokine production. This issue is discussed. CONCLUSIONS: The success of allopregnancy in mice with circulating anti-paternal CTLs and deficient Fas/Fas ligand interactions rules out a mandatory role for such a mechanism in ensuring the success of allogeneic pregnancy.
PROBLEM: Th2 cytokines and Fas/Fas ligand interactions are proposed to be part of the placental barrier that contribute to the success of allogeneic pregnancy. To fully understand the role regulation of Th2 cytokines, we must isolate and identify the cells that produce them. We also need to assess the requirement for Fas/Fas ligand interaction in facilitating a successful allogeneic pregnancy. METHOD OF STUDY: To assess the site of production of Th2 cytokines, we used immunohistochemistry sections from placental and decidual tissue obtained at various stages of gestation in mice and humans. We used mice that are genetically deficient in Fas/Fas ligand interactions and raised specific anti-paternal CTLs by anti-paternal immunization of the mother before mating. RESULTS: The detailed results show that in both species the bulk of Th2 production may come from non-lymphoid tissues in the placenta and decidua, with a major role for trophoblasts. This raises questions about the mechanism(s) by which alloimmunization enhances local Th2 cytokine production. This issue is discussed. CONCLUSIONS: The success of allopregnancy in mice with circulating anti-paternal CTLs and deficient Fas/Fas ligand interactions rules out a mandatory role for such a mechanism in ensuring the success of allogeneic pregnancy.
Authors: Ana Claudia Zenclussen; Katrin Gerlof; Maria Laura Zenclussen; André Sollwedel; Annarosa Zambon Bertoja; Thomas Ritter; Katja Kotsch; Joachim Leber; Hans-Dieter Volk Journal: Am J Pathol Date: 2005-03 Impact factor: 4.307
Authors: Babbette LaMarca; Denise C Cornelius; Ashlyn C Harmon; Lorena M Amaral; Mark W Cunningham; Jessica L Faulkner; Kedra Wallace Journal: Am J Physiol Regul Integr Comp Physiol Date: 2016-04-20 Impact factor: 3.619
Authors: Ashlyn C Harmon; Denise C Cornelius; Lorena M Amaral; Jessica L Faulkner; Mark W Cunningham; Kedra Wallace; Babbette LaMarca Journal: Clin Sci (Lond) Date: 2016-03 Impact factor: 6.124