Broad spectrum of Pompe disease in patients with the same c.-32-13T->G haplotype.

BACKGROUND: Pompe disease (acid maltase deficiency, glycogen storage disease type II; OMIM 232300) is an autosomal recessive lysosomal storage disorder characterized by acid alpha-glucosidase deficiency due to mutations in the GAA gene. Progressive skeletal muscle weakness affects motor and respiratory functions and is typical for all forms of Pompe disease. Cardiac hypertrophy is an additional fatal symptom in the classic infantile subtype. c.-32-13T-->G is the most common mutation in adults. OBJECTIVE: To delineate the disease variation among patients with this mutation and to define the c.-32-13T-->G haplotypes in search for genotype-phenotype correlations. METHODS: We studied 98 compound heterozygotes with a fully deleterious mutation (11 novel mutations are described) and the common c.-32-13T-->G mutation. RESULTS: All patients were Caucasian. None had the classic infantile form of Pompe disease. The clinical course varied far more than anticipated (age at diagnosis <1 to 78 years; age at onset: <1 to 52 years). The acid alpha-glucosidase activities in a subset of patients ranged from 4 to 19.9 nmol/mg/h. Twelve different c.-32-13T-->G haplotypes were identified based on 17 single-nucleotide polymorphisms located in the GAA gene. In 76% of the cases, c.-32-13T-->G was encountered in the second most common GAA core haplotype (DHRGEVVT). In only one case was c.-32-13T-->G encountered in the major GAA core haplotype (DRHGEIVT). CONCLUSION: Patients with the same c.-32-13T-->G haplotype (c.q. GAA genotype) may manifest first symptoms at different ages, indicating that secondary factors may substantially influence the clinical course of patients with this mutation.

Significant fetal-maternal hemorrhage after termination of pregnancy: implications for development of fetal cell microchimerism.

OBJECTIVE: Recent reports that an association exists between fetal cell microchimerism and autoimmune disease has increased interest in the postpartum persistence of fetal cells. The purpose of this study was to determine, by means of quantitative polymerase chain reaction amplification, whether a significant fetalmaternal hemorrhage occurs after elective termination of pregnancy. STUDY DESIGN: Blood samples were obtained from 23 women who underwent termination of pregnancy immediately before venipuncture; these samples were subjected to analysis by quantitative polymerase chain reaction amplification with the use of Y-chromosome primers. There were 21 male and 2 female fetuses. Results were equilibrated to 16 mL and analyzed by a weighted linear regression analysis to evaluate the correlation between detected fetal nucleated cell equivalents and gestational weeks. RESULTS: Among the 21 known male fetuses, the median number of detected fetal nucleated cell equivalents was 1552 (range, 50-37,618). The female fetuses had no fetal nucleated cell equivalents detected. A positive dependence of male fetal nucleated cell equivalents on gestational age was shown (P <.001). CONCLUSION: Analysis by quantitative polymerase chain reaction amplification demonstrated a large fetal-maternal transfusion after elective abortion. Consideration of the biologic consequences of pregnancy and the potential for future development of fetal cell microchimerism must now extend to a larger population of women.