Differential diagnosis of Fanconi anemia by nitrogen mustard and diepoxybutane

Fanconi anemia (FA) is an autosomal recessive inherited disorder which is associated with a variety of congenital anomalies. These include morphometric abnormalities involving mainly the head and face, skeletal malformations particularly of the radial ray, growth retardation, abnormal skin pigmentation, deafness, and renal, ocular, genital, and cardiac defects. The cardinal clinical feature is a severe progressive pancytopenia. The overall aim of our study was to compare two different alkylating agents that would permit rapid and unequivocal detection of FA. A total of 271 patients underwent nitrogen mustard (NTM) and diepoxybutane (DEB) tests in our laboratory; baseline chromosomal breakage was studied for all of them. After the results of the chromosomal breakage studies, 72 patients were diagnosed as affected and 136 patients as unaffected by FA. We also studied 63 family members of FA patients. According to our study, NTM seems more specific to identify chromosomal breakages in FA parents than DEB

Two cases of partial trisomy 10q syndrome due to a familial 10;20 translocation

We describe an eleven day-old boy and his first degree double cousin who both have distal trisomy 10q syndrome. Their cytogenetic analysis using GTG-banding showed an unbalanced translocation 46, XY, -20, +der(20), t(10;20)(q22.3, p11) mat and 46, XX, -20, +der(20), t(10;20)(q22.3, p11) mat. The translocation was confirmed by FISH. We have found balanced translocation t(10;20)(q22.3; p11) with cytogenetic and FISH studies in the mothers and maternal grandfather of these children. Our cases had typical craniofacial and visceral anomalies of this syndrome. However case 1 had an agenesia of corpus callosum which was not previously described and case 2 had hypertrophied cardiomyopathy and cliteromegaly which were previously described as rare anomalies for this syndrome

Individual sensitivity to cytogenetic effects of benzo[alpha]pyrene in cultured human lymphocytes: influence of glutathione S-transferase M1 genotype

Sister chromatid exchange (SCE) and chromosome aberrations (CA) in peripheral lymphocytes has been widely used in assessing exposure to mutagens and carcinogens. One of the extensively studied genotoxins is benzo[alpha]pyrene (BaP). We studied the ability of BaP to induce SCE and CA in 16 glutathione S-transferase M1 (GSTM1)-positive and 15 GSTM1-null individuals by analyzing 72-h whole-blood lymphocyte cultures, either BaP-untreated (controls) or treated with 5 µM of BaP for 24 or 48 h. There was no differences in the level of BaP-induced chromosomal aberrations between GSTM1-positive or null individuals when the cells were BaP-exposed for 24 h (0.083 &plusmn; 0.059 vs. 0.090 &plusmn; 0.058) or 48 h (0.092 &plusmn; 0.057 vs. 0.096 &plusmn; 0.050. The frequency of SCE in controls was GSTM1-positive = 2.96 &plusmn; 0.35 and GSTM1-null = 3.23 &plusmn; 0.56 while that for BaP-treated lymphocytes was GSTM1-positive = 5.56 &plusmn; 0.83 and GSTM1-null = 6.09 &plusmn; 1.11 and were not statistically significant. The rates of BaP-induced in vitro chromatid and chromosome-type gaps and breaks were similar in all groups, although GSTM1-null genotype chromatid-type breaks were more frequent (0.064 &plusmn; 0.039 per metaphase) than chromosome-type breaks (0.032 &plusmn; 0.027 per metaphase) after 48 h treatment with BaP (p < 0.001). These findings suggest that BaP-induced in vitro SCE and CA are not influenced by the GSTM1 genotype