We assessed the clinical sequelae of transfusional iron overload in 15 nonthalassemic adults (40 to 71 years of age) with anemias requiring transfusions. Iron loading had been present for less than four years in 14 patients. The number of units of blood transfused ranged from 60 to 210 (mean, 120). Liver-biopsy specimens in 10 patients contained seven to 26 times the normal amount of iron and typically showed focal portal fibrosis. Left ventricular cardiac function was impaired in only the most heavily transfused patients or in those with coexisting coronary-artery disease, All patients had glucose intolerance associated with significantly reduced insulin output, compared with controls (P < 0.01). Pituitary reserve of ACTH was limited in 10 of 12 patients, and that of gonadotropin in five of 13. We conclude that widespread subclinical organ dysfunction can result from transfusional iron overload developing in adulthood. The pattern of organ involvement resembles that encountered in idiopathic hemochromatosis.
Cultured skin fibroblasts from subjects with clinically apparent diabetes mellitus and from subjects genetically predisposed to diabetes have a replicative lifespan that is inversely related to donor age. Fibroblasts from carefully defined normal subjects not predisposed to diabetes fail to show this correlation. The data support the idea that physiologic status of the tissue donor is a more precise determinant of fibroblast replicative lifespan than chronologic age.
A B S T R A C T The idea that the gene(s) that cause diabetes mellitus can be expressed in extrapancreatic cells has been examined by tissue culture techniques. Skin biopsies were obtained from 25 normal subjects (N), 26 overt diabetics (D), 16 ofjuvenile onset (JOD) and 9 of maturity onset (MOD), and 21 subjects genetically predisposed to diabetes (P) on the basis ofmaturityonset diabetes in both parents. Each biopsy was subdivided, multiple skin fragments were explanted in vitro, and several parameters of cellular outgrowth were monitored in primary and secondary cultures until cell division ceased because of senescence. In general, the rank order of growth vigor was N > P > D although differences were often marginal and statistically significant between N and JOD and(or) MOD. Outgrowth of epithelial cells was more vigorous in N explants in early stages, but later, JOD and MOD cells grew better than those of N. Outgrowth of fibroblast cells from N explants was more vigorous both at early and later stages and required less time to achieve maximum percent outgrowth. In secondary cultures, N cells grew faster than the other three groups so that fewer days elapsed between subcultures but significant differences were only seen between N and one or two of the other groups over some of the first seven subcultures. The onset of cellular senescence occurred earlier in P and JOD cultures both in mean population doublings and calendar time. N cultures had a higher percent surviving clones after picking than MOD, and a shorter recloning time than clones ofJOD. The replicative life-spans of cultures (mean population doublings The data demonstrate that cellular growth is impaired in both JOD and MOD types of cultures and to a generally lesser extent in P cultures. This is consistent with intrinsic genetic defects but the possibility that persistent deleterious effects of in vivo pathophysiology contribute alone or in combination cannot be ruled out. Therefore, the diabetic defect(s) can be expressed in extrapancreatic cells of mesenchymal origin. This system should prove useful in exploring the interplay between genetic and environmental factors in diabetes, the mechanisms(s) of hyperglycemia and other metabolic derangements, and the propensity that affected individuals have to develop degenerative diseases.
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