BACKGROUND: NLRP7 (NALP7) has been identified as the major gene involved in the inherited predisposition to recurrent molar pregnancies, a rare recessive condition in which affected individuals have complete hydatidiform moles of diploid biparental origin (BiCHM). The role of NLRP7 in other types of molar pregnancy and reproductive wastage has not been conclusively demonstrated. The purpose of this study was to clarify this by identifying NLRP7 variation in two clinically well-defined groups of patients: women with recurrent BiCHM, and women with three or more recurrent complete hydatidiform moles of proven androgenetic origin (AnCHM). METHODS: Fluorescent microsatellite genotyping of molar tissue was used to establish a diagnosis of recurrent BiCHM (four novel cases) or recurrent AnCHM (nine women with multiple CHM). These two groups were subsequently screened for mutations in NLRP7 using DNA sequencing. Additional screening for non-pathological variants was performed in 21 previously published cases of recurrent BiCHM. Taqman genotyping was used to determine the frequency of novel NLRP7 variants in two control cohorts of Caucasian and Asian women with no adverse reproductive outcomes. RESULTS: Of the four novel cases with recurrent BiCHM, two were homozygous for mutations in NLRP7 while one was a compound heterozygote for a nonsense mutation and a pathological variant. No NLRP7 mutations or pathological variants were identified in the fourth case. None of the women with AnCHM carried any mutations or pathological variants of NLRP7. A single case of AnCHM was found to be heterozygous for a novel variant (R413Q). CONCLUSION: NLRP7 mutations do not represent a major cause of AnCHM.
BACKGROUND:NLRP7 (NALP7) has been identified as the major gene involved in the inherited predisposition to recurrent molar pregnancies, a rare recessive condition in which affected individuals have complete hydatidiform moles of diploid biparental origin (BiCHM). The role of NLRP7 in other types of molar pregnancy and reproductive wastage has not been conclusively demonstrated. The purpose of this study was to clarify this by identifying NLRP7 variation in two clinically well-defined groups of patients: women with recurrent BiCHM, and women with three or more recurrent complete hydatidiform moles of proven androgenetic origin (AnCHM). METHODS: Fluorescent microsatellite genotyping of molar tissue was used to establish a diagnosis of recurrent BiCHM (four novel cases) or recurrent AnCHM (nine women with multiple CHM). These two groups were subsequently screened for mutations in NLRP7 using DNA sequencing. Additional screening for non-pathological variants was performed in 21 previously published cases of recurrent BiCHM. Taqman genotyping was used to determine the frequency of novel NLRP7 variants in two control cohorts of Caucasian and Asian women with no adverse reproductive outcomes. RESULTS: Of the four novel cases with recurrent BiCHM, two were homozygous for mutations in NLRP7 while one was a compound heterozygote for a nonsense mutation and a pathological variant. No NLRP7 mutations or pathological variants were identified in the fourth case. None of the women with AnCHM carried any mutations or pathological variants of NLRP7. A single case of AnCHM was found to be heterozygous for a novel variant (R413Q). CONCLUSION:NLRP7 mutations do not represent a major cause of AnCHM.
Authors: L Aghajanova; S Mahadevan; S Altmäe; A Stavreus-Evers; L Regan; N Sebire; P Dixon; R A Fisher; I B Van den Veyver Journal: Hum Reprod Date: 2014-11-05 Impact factor: 6.918
Authors: Sangeetha Mahadevan; Shu Wen; Alfred Balasa; Gary Fruhman; Julio Mateus; Andrew Wagner; Tarek Al-Hussaini; Ignatia B Van den Veyver Journal: Prenat Diagn Date: 2013-10-04 Impact factor: 3.050
Authors: Jasmin Beygo; Ole Ammerpohl; Daniela Gritzan; Melanie Heitmann; Katrin Rademacher; Julia Richter; Almuth Caliebe; Reiner Siebert; Bernhard Horsthemke; Karin Buiting Journal: PLoS One Date: 2013-10-09 Impact factor: 3.240