A comparative study has been made of glycosaminoglycan (GAG) accumulation in human fibroblasts with trisomy 7 and triploidy from spontaneous abortuses, fibroblasts with triploidy from induced abortuses, fibroblasts from patients with Down's syndrome and diploid fibroblasts from age-matched controls. The study demonstrated that the incorporation of [3H] glucosamine into hyaluronic acid by fibroblasts with trisomy 7 and triploidy, established from spontaneous abortuses, and from two out of three induced abortuses with triploidy, was 2.6-5.3 times lower than control incorporation. One strain of fibroblasts from an induced abortus with triploidy (IMG-1062) did not show any differences in GAG production when compared with diploid fibroblasts. However, the strains from children with Down's syndrome revealed normal or even increased levels of hyaluronic acid production. The data support the contention that the decreased hyaluronic acid synthesis in fibroblasts with an abnormal karyotype is related to spontaneous abortion.
Collagen and fibronectin synthesis by trisomic and triploid fibroblasts derived from human spontaneous abortuses was studied. It was demonstrated that the level of fibronectin and collagen production in fibroblasts with trisomy 7, trisomy 9, and triploidy was reduced as compared with diploid cells. A correlation between this observation and an increased rate of intracellular 14C-procollagen degradation was also established for the anomalous strains. No difference in hydroxylation of 14C-proline residues in alpha 1(I) and alpha 2(I) collagen chains and no fluctuation in the collagen type (I): type III ratio was found in the strains with the abnormal karyotypes. It was concluded that differentiation of the abnormal fibroblasts was impaired. The data also favour the hypothesis that the deficiency of the fibroblasts in producing proteins may account for a variety of anatomic abnormalities of embryos.
Collagen synthesis in cells with trisomy 7 and 9 derived from human spontaneous abortuses was found to be lower (5.06% and 5.53% respectively) than in the control diploid cells (8.80%). The ratio of collagen types (I/III) in trisomic strains did not differ from the control data while the amount of the degraded procollagen in trisomic cells was increased.
Synthesis of glycosaminoglycans (GAGs) by fibroblasts derived from seven patients with Down's syndrome, five patients with Edwards' syndrome, and two patients with Patau's syndrome were studied in cell culture. The aneuploid strains were compared with diploid fibroblasts from age-matched controls. In terms of hyaluronic acid and sulfated GAG synthesis, the amount of synthesized hyaluronic acid was not significantly different between postnatal aneuploid strains and controls.
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