Marrow transplantation was attempted in a 13-yr-old boy with congenital hypoplastic anemia who had never responded to corticosteroid therapy. Prior to the transplant, he had received 238 transfusions, at least 12 of which were from his father. He was prepared for grafting with antilymphocyte globulin, procarbazine, and total body irradiation (1000 rads). The patient, whose red cells were Group B, then received marrow cells from his Group O, histocompatible, sister. Thereafter, reticulocytes, Group O erythrocytes, and female leukocytes appeared in the peripheral blood. Erythroid precursors were seen in the patient's marrow for the first time in his life, and all lacked fluorescent Y chromosomes. Dividing cells were all female. After initially progressing well, the patient developed interstitial pneumonia and died 55 days after the transplant. The successful erythroid graft suggested that this patient's failure to produce red blood cells was due to a defective stem cell rather than to a humoral defect, plasma inhibitor, or abnormal marrow microenvironment. It suggested further that sibling marrow may be engrafted in patients who have received multiple transfusions, even from a parent.
Clinical, hematologic, and molecular genetic studies are reported for five families with SS patients having unusually high fetal hemoglobin (Hb F) levels (mean 28.3%, range 19-42%). Some of the individuals were symptom-free and one was not anemic. However, some were symptomatic despite a very high Hb F. Neither the Hb F level nor the F cell distribution entirely explained the variation in clinical severity. Molecular genetic studies identified the Senegal haplotype with the associated -158 G gamma (C----T) mutation in two of the five families. The -202 G gamma (C----G) mutation was not found in any of the individuals studied. Sequencing of the gamma-globin gene promoters to detect genetic high F determinants not detectable by restriction digestion was not performed. All AS parents and AS siblings demonstrated elevated F cells when the Senegal/-158 G gamma (C----T) mutation was present with either the beta S or beta A allele. Double heterozygosity for two different high F determinants in some SS patients is suggested by the studies in at least one family. Discordance among siblings in clinical and hematologic manifestations in two families provides additional evidence for loci regulating Hb F cell production which are not linked to the beta-globin gene clusters.
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