BACKGROUND: Fetal cells can be found in the maternal circulation in most pregnancies. Fetal progenitor cells have been found to persist in the circulation of women many years after childbirth. We tested the hypothesis that microchimerism is involved in the pathogenesis of scleroderma. Scleroderma is of interest because of a strong female predilection, an increased incidence in the years after childbearing, and clinical similarities between scleroderma and chronic graft-versus-host disease after allogeneic bone-marrow transplantation. We also investigated whether HLA-compatibility of a child was associated with later development of scleroderma in the mother. METHODS: We enrolled 40 women who had previously given birth to at least one son--16 healthy controls, 17 scleroderma patients, and seven healthy sisters of patients. We used quantitative PCR to amplify a Y-chromosome-specific sequence in whole peripheral blood from these women. Also 32 controls with 58 children, and 21 scleroderma patients with 47 children were HLA genotyped. FINDINGS: The mean number of male cell DNA equivalents among controls was 0.38 cells per 16 mL whole blood (median 0 [range 0-2]) and 11.1 (6.0 [0-61]) among scleroderma patients (p = 0.0007). Controls' youngest sons were born a mean of 15.4 years previously, and scleroderma patients' sons 18.5 years previously. Some scleroderma patients had concentrations of male DNA higher than those found in most pregnant women. HLA-class II compatibility of a child from the mother's perspective was more common among scleroderma patients than among controls, but was not essential for persistence of male DNA in maternal peripheral blood. INTERPRETATION: Low concentrations of male DNA can be detected in healthy women decades after the birth of a son. Microchimerism in scleroderma patients could be secondary to the underlying disease. However, the finding that HLA class II compatibility of a child was more common for scleroderma patients than for controls, supports the possibility that microchimerism may be involved in the pathogenesis of scleroderma.
BACKGROUND: Fetal cells can be found in the maternal circulation in most pregnancies. Fetal progenitor cells have been found to persist in the circulation of women many years after childbirth. We tested the hypothesis that microchimerism is involved in the pathogenesis of scleroderma. Scleroderma is of interest because of a strong female predilection, an increased incidence in the years after childbearing, and clinical similarities between scleroderma and chronic graft-versus-host disease after allogeneic bone-marrow transplantation. We also investigated whether HLA-compatibility of a child was associated with later development of scleroderma in the mother. METHODS: We enrolled 40 women who had previously given birth to at least one son--16 healthy controls, 17 sclerodermapatients, and seven healthy sisters of patients. We used quantitative PCR to amplify a Y-chromosome-specific sequence in whole peripheral blood from these women. Also 32 controls with 58 children, and 21 sclerodermapatients with 47 children were HLA genotyped. FINDINGS: The mean number of male cell DNA equivalents among controls was 0.38 cells per 16 mL whole blood (median 0 [range 0-2]) and 11.1 (6.0 [0-61]) among sclerodermapatients (p = 0.0007). Controls' youngest sons were born a mean of 15.4 years previously, and sclerodermapatients' sons 18.5 years previously. Some sclerodermapatients had concentrations of male DNA higher than those found in most pregnant women. HLA-class II compatibility of a child from the mother's perspective was more common among sclerodermapatients than among controls, but was not essential for persistence of male DNA in maternal peripheral blood. INTERPRETATION: Low concentrations of male DNA can be detected in healthy women decades after the birth of a son. Microchimerism in sclerodermapatients could be secondary to the underlying disease. However, the finding that HLA class II compatibility of a child was more common for sclerodermapatients than for controls, supports the possibility that microchimerism may be involved in the pathogenesis of scleroderma.
Authors: M Binks; J R Passweg; D Furst; P McSweeney; K Sullivan; C Besenthal; J Finke; H H Peter; J van Laar; F C Breedveld; W E Fibbe; D Farge; E Gluckman; F Locatelli; A Martini; F van den Hoogen; L van de Putte; A V Schattenberg; R Arnold; P A Bacon; P Emery; I Espigado; B Hertenstein; F Hiepe; A Kashyap; I Kötter; A Marmont; A Martinez; M J Pascual; A Gratwohl; H G Prentice; C Black; A Tyndall Journal: Ann Rheum Dis Date: 2001-06 Impact factor: 19.103
Authors: Olivia J Holland; Caitlin Linscheid; Herbert C Hodes; Traci L Nauser; Melissa Gilliam; Peter Stone; Larry W Chamley; Margaret G Petroff Journal: Am J Pathol Date: 2011-11-08 Impact factor: 4.307
Authors: S E Peterson; J L Nelson; K A Guthrie; V K Gadi; T M Aydelotte; D J Oyer; S W Prager; H S Gammill Journal: Hum Reprod Date: 2012-06-29 Impact factor: 6.918