Fetal cell microchimerism: a protective role in autoimmune thyroid diseases

Autor: Carla Colombo, Laura Fugazzola, Roberta Rizzo, Federica de Liso, Valentina Cirello, Maria Antonia Maffini, Milena Crippa, Palma Finelli, Silvia Bolzani, Daria Bortolotti, Stefano Ferrero, Guia Vannucchi, Irene Campi
Rok vydání: 2015
Předmět:
Male
leukocyte antigen G
Endocrinology
Diabetes and Metabolism
Thyroid Gland
insertion/deletion polymorphism
Disease
Polymerase Chain Reaction
Thyroiditis
Endocrinology
Pregnancy
Hashimotos thyroiditis
Aged
80 and over
medicine.diagnostic_test
Thyroid
Microchimerism
General Medicine
progenitor cells
Middle Aged
Graves Disease
medicine.anatomical_structure
parity
Female
women
Adult
medicine.medical_specialty
Human leukocyte antigen
Hashimoto Disease
Chimerism
NO
Immune system
Fetus
Internal medicine
medicine
microchimerism
cancer
Humans
HLA-G Antigens
Chromosomes
Human
Y
Polymorphism
Genetic
business.industry
Thyroiditis
Autoimmune
microchimerism
leukocyte antigen G
insertion/deletion polymorphism
Hashimotos thyroiditis
progenitor cells
women
pregnancy
cancer
parity
DNA
medicine.disease
Immunology
Blood Vessels
business
Fluorescence in situ hybridization
Zdroj: European journal of endocrinology. 173(1)
ISSN: 1479-683X
Popis: ObjectiveThe physiological persistence of fetal cells in the circulation and tissue of a previously pregnant woman is called fetal cell microchimerism (FCM). It has been hypothesized to play a role in systemic autoimmune disease; however, only limited data are available regarding its role in autoimmune thyroid disease (AITD).DesignCirculating FCM was analyzed in a large series of previously pregnant women with Graves' disease (GD), Hashimoto's thyroiditis (HT), or no disease (healthy controls (HCs)). To exclude the possible bias related to placental factors, the polymorphic pattern of human leukocyte antigen-G (HLA-G) gene, which is known to be involved in the tolerance of fetal cells by the maternal immune system, was investigated.MethodsFCM was evaluated by PCR in the peripheral blood, and the Y chromosome was identified by fluorescencein situhybridization in some GD tissues.HLA-Gpolymorphism typing was assessed by real-time PCR.ResultsFCM was significantly more frequent in HC (63.6%) than in GD (33.3%) or HT (27.8%) women (P=0.0004 andP=0.001 respectively). A quantitative analysis confirmed that circulating male DNA was more abundant in HC than it was in GD or HT. Microchimeric cells were documented in vessels and in thyroid follicles. In neither GD/HT patients nor HC women was theHLA-Gtyping different between FCM-positive and FCM-negative cases.ConclusionThe higher prevalence of FCM in HC as compared to GD and HT patients suggests that it plays a possible protective role in autoimmune thyroid disorders. Placental factors have been excluded as determinants of the differences found. The vascular and tissue localization of microchimeric cells further highlights the ability of those cells to migrate to damaged tissues.
Databáze: OpenAIRE
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