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Literature DB >> 21327048

Cells from a vanished twin as a source of microchimerism 40 years later.

Laurent Meric de Bellefon¹, Pierre Heiman, Sami B Kanaan, Doua F Azzouz, Justyna M Rak, Marielle Martin, Jean Roudier, Florence Roufosse, Nathalie C Lambert.

Abstract

We report the case of a 40-year-old man diagnosed with a scleroderma-like disease. Clinical similarities with graft versus host disease prompted initial testing for chimerism employing fluorescence in situ hybridization (FISH). Female cells were observed within peripheral blood mononuclear cells from the patient.Because maternal cells have been detected in healthy immunologically competent adults and patients with autoimmune conditions, we hypothesized that these cells were of maternal origin. Contrary to our expectations, HLA-specific quantitative PCR (QPCR) ruled out maternal microchimerism. However, HLA-specific QPCR testing was positive for the paternal HLA haplotype that the patient did not inherit. We reasoned that the most likely origin of chimerism with non-inherited paternal HLA alleles was from an unrecognized "vanished" twin. The patient had never received a blood transfusion.This report suggests that cells from a vanished twin are a possible source of chimerism. The frequency of chimerism from this source is not yet known and whether the scleroderma-like disease observed in the patient is anecdotal or implies a potential association with autoimmune disease remains to be elucidated.

Entities: Disease Species

Year: 2010 PMID： 21327048 PMCID： PMC3023624 DOI： 10.4161/chim.1.2.14294

Source DB: PubMed Journal: Chimerism ISSN： 1938-1964

15 in total

1. Detection of maternal deoxyribonucleic acid in umbilical cord plasma by using fluorescent polymerase chain reaction amplification of short tandem repeat sequences.

Authors: Margit Bauer; Irmgard Orescovic; Wolfgang M Schoell; Diana W Bianchi; Barbara Pertl
Journal: Am J Obstet Gynecol Date: 2002-01 Impact factor: 8.661

2. Microchimerism in female bone marrow and bone decades after fetal mesenchymal stem-cell trafficking in pregnancy.

Authors: Keelin O'Donoghue; Jerry Chan; Josu de la Fuente; Nigel Kennea; Ann Sandison; Jonathan R Anderson; Irene A G Roberts; Nicholas M Fisk
Journal: Lancet Date: 2004 Jul 10-16 Impact factor: 79.321

3. Identification of fetal DNA and cells in skin lesions from women with systemic sclerosis.

Authors: C M Artlett; J B Smith; S A Jimenez
Journal: N Engl J Med Date: 1998-04-23 Impact factor: 91.245

4. Microchimerism of maternal origin persists into adult life.

Authors: S Maloney; A Smith; D E Furst; D Myerson; K Rupert; P C Evans; J L Nelson
Journal: J Clin Invest Date: 1999-07 Impact factor: 14.808

5. Microchimerism and HLA-compatible relationships of pregnancy in scleroderma.

Authors: J L Nelson; D E Furst; S Maloney; T Gooley; P C Evans; A Smith; M A Bean; C Ober; D W Bianchi
Journal: Lancet Date: 1998-02-21 Impact factor: 79.321

6. Increased numbers of microchimeric cells of fetal origin are associated with dermal fibrosis in mice following injection of vinyl chloride.

Authors: P J Christner; C M Artlett; R F Conway; S A Jiménez
Journal: Arthritis Rheum Date: 2000-11

7. Microchimerism: incidental byproduct of pregnancy or active participant in human health?

Authors: J Lee Nelson
Journal: Trends Mol Med Date: 2002-03 Impact factor: 11.951

8. Detection of maternal cells in human umbilical cord blood using fluorescence in situ hybridization.

Authors: J M Hall; P Lingenfelter; S L Adams; D Lasser; J A Hansen; M A Bean
Journal: Blood Date: 1995-10-01 Impact factor: 22.113

9. Transfer of the shared epitope through microchimerism in women with rheumatoid arthritis.

Authors: J M Rak; L Maestroni; N Balandraud; S Guis; H Boudinet; M C Guzian; Z Yan; D Azzouz; I Auger; C Roudier; M Martin; R Didelot; J Roudier; N C Lambert
Journal: Arthritis Rheum Date: 2009-01

10. Quantification of maternal microchimerism by HLA-specific real-time polymerase chain reaction: studies of healthy women and women with scleroderma.

Authors: Nathalie C Lambert; Timothy D Erickson; Zhen Yan; Jennifer M Pang; Katherine A Guthrie; Daniel E Furst; J Lee Nelson
Journal: Arthritis Rheum Date: 2004-03

16 in total

1. Maternal microchimerism is prevalent in cord blood in memory T cells and other cell subsets, and persists post-transplant.

Authors: Sami B Kanaan; Hilary S Gammill; Whitney E Harrington; Stephen C De Rosa; Philip A Stevenson; Alexandra M Forsyth; Judy Allen; Emma Cousin; Koen van Besien; Colleen S Delaney; J Lee Nelson
Journal: Oncoimmunology Date: 2017-03-31 Impact factor: 8.110

Review 2. Naturally acquired microchimerism: implications for transplantation outcome and novel methodologies for detection.

Authors: Michael Eikmans; Astrid G S van Halteren; Koen van Besien; Jon J van Rood; Jos J M Drabbels; Frans H J Claas
Journal: Chimerism Date: 2014

Review 3. Transfusion-associated microchimerism: the hybrid within.

Authors: Evan M Bloch; Rachael P Jackman; Tzong-Hae Lee; Michael P Busch
Journal: Transfus Med Rev Date: 2012-10-24

4. Low prevalence of male microchimerism in women with Mayer-Rokitansky-Küster-Hauser syndrome.

Authors: H E Peters; B N Johnson; E A Ehli; D Micha; M O Verhoeven; G E Davies; J J M L Dekker; A Overbeek; M H van den Berg; E van Dulmen-den Broeder; F E van Leeuwen; V Mijatovic; D I Boomsma; C B Lambalk
Journal: Hum Reprod Date: 2019-06-04 Impact factor: 6.918

5. The occurrence of fetal microchimeric cells in endometrial tissues is a very common phenomenon in benign uterine disorders, and the lower prevalence of fetal microchimerism is associated with better uterine cancer prognoses.

Authors: Ilona Hromadnikova; Katerina Kotlabova; Petra Pirkova; Pavla Libalova; Zdenka Vernerova; Bohuslav Svoboda; Eduard Kucera
Journal: DNA Cell Biol Date: 2013-11-27 Impact factor: 3.311