M Santhanakrishnan1, C A Tormey1,2, P Natarajan1, J Liu1, J E Hendrickson1,3. 1. Department of Laboratory Medicine, Yale University School of Medicine, New Haven, CT, USA. 2. VA Connecticut Healthcare System, West Haven, CT, USA. 3. Department of Pediatrics, Yale University School of Medicine, New Haven, CT, USA.
Abstract
BACKGROUND AND OBJECTIVES: Fetuses affected by maternal RBC alloantibodies may have prolonged anaemia after birth, leading one to question whether maternal alloantibody transfer may occur outside the placenta. In response to a recent publication describing breast milk transfer of clinically significant amounts of maternal antiplatelet IgA antibodies from mother to nursing infant, we hypothesized that maternal RBC alloantibodies may also be capable of being transferred in breast milk. MATERIALS AND METHODS: The presence and clinical significance of breast milk alloantibody transfer were tested through a series of pregnancy, fostering and transfusion experiments, using a murine model in which transgenic RBCs express the human KEL glycoprotein. RESULTS: Maternal anti-KEL immunoglobulins, induced through transfusion or pregnancy, were detected in the aqueous phase of breast milk. Further, efficient transfer of maternal anti-KEL IgG and IgA to nursing pups was observed in fostering experiments. The breast milk-acquired alloantibodies were clinically significant in wild-type pups in a transfusion setting, binding to 'incompatible' KEL RBCs and leading to premature clearance from the circulation. Although breast milk-acquired alloantibodies also bound to the RBCs of transgenic KEL-positive fostered pups, no anaemia resulted. CONCLUSIONS: Taking these murine data in combination with recently published human data of maternal antiplatelet IgA antibodies in breast milk leading to sequelae in some infants, it is theoretically possible that maternal anti-RBC IgA alloantibodies may also be transferred in human breast milk and may lead to sequelae in some infants under some circumstances.
BACKGROUND AND OBJECTIVES: Fetuses affected by maternal RBC alloantibodies may have prolonged anaemia after birth, leading one to question whether maternal alloantibody transfer may occur outside the placenta. In response to a recent publication describing breast milk transfer of clinically significant amounts of maternal antiplatelet IgA antibodies from mother to nursing infant, we hypothesized that maternal RBC alloantibodies may also be capable of being transferred in breast milk. MATERIALS AND METHODS: The presence and clinical significance of breast milk alloantibody transfer were tested through a series of pregnancy, fostering and transfusion experiments, using a murine model in which transgenic RBCs express the humanKEL glycoprotein. RESULTS: Maternal anti-KEL immunoglobulins, induced through transfusion or pregnancy, were detected in the aqueous phase of breast milk. Further, efficient transfer of maternal anti-KELIgG and IgA to nursing pups was observed in fostering experiments. The breast milk-acquired alloantibodies were clinically significant in wild-type pups in a transfusion setting, binding to 'incompatible' KEL RBCs and leading to premature clearance from the circulation. Although breast milk-acquired alloantibodies also bound to the RBCs of transgenicKEL-positive fostered pups, no anaemia resulted. CONCLUSIONS: Taking these murine data in combination with recently published human data of maternal antiplatelet IgA antibodies in breast milk leading to sequelae in some infants, it is theoretically possible that maternal anti-RBC IgA alloantibodies may also be transferred in human breast milk and may lead to sequelae in some infants under some circumstances.
Authors: Kathryn R Girard-Pierce; Sean R Stowell; Nicole H Smith; C Maridith Arthur; Harold C Sullivan; Jeanne E Hendrickson; James C Zimring Journal: Blood Date: 2013-07-22 Impact factor: 22.113
Authors: Honghui Yu; Sean R Stowell; Lidice Bernardo; Jeanne E Hendrickson; James C Zimring; Alaa Amash; Makoto Uchikawa; Alan H Lazarus Journal: J Immunol Date: 2014-08-13 Impact factor: 5.422
Authors: Demetri J Merianos; Eleonor Tiblad; Matthew T Santore; Carlyn A Todorow; Pablo Laje; Masayuki Endo; Philip W Zoltick; Alan W Flake Journal: J Clin Invest Date: 2009-08-03 Impact factor: 14.808