ABSTRACT
The putative tumor-suppressor gene p16 was mapped to human chromosome 9p21, close to the interferon alpha cluster. The frequency and association of gene alterations of p16, interferon alpha and interferon beta were investigated in a total of 39 Acute Lymphoblastic Leukemia (ALL) patients. Of these, 10 patients (25.6 per cent) presented abnormalities of at least one of the three genes studied. In 32 ALL cases studies of the three genes could be accomplished. In 23 out of 32 ALL cases the 3 genes studied were normally preserved. In the remaining 9 ALL, p16 was affected in 8 cases by homozygous deletions. In 2 patients, p16 deletion was associated with homozygous deletions for interferon alpha and interferon beta genes and in 1 case with total deletion of interferon beta 1 gene and partial deletion of interferon alpha. In the remaining 5 cases, p16 was the only gene deleted with no alteration of type interferon genes. These data indicate that p16 gene is deleted in a higher frequency than type I interferon genes in ALL. Moreover, within the ALL group with p16 gene deletion, 37.5 per cent are associated with interferon deletions and in general, ALL with alpha and/or beta interferon gene deletions are associated with p16 deletions. Therefore, p16 gene deletion with preserved type I interferon genes in some ALL suggests that the absence of this cdk inhibitor may disturb the normal cell cycle and favor blast transformation.
Subject(s)
Humans , Male , Female , Infant , Child, Preschool , Child , Adolescent , Adult , Middle Aged , Gene Deletion , Genes, p16 , Genes, Tumor Suppressor , Interferon Type I/genetics , Precursor Cell Lymphoblastic Leukemia-Lymphoma/genetics , Blotting, Southern , Gene Frequency , Interferon Type I/analysisABSTRACT
The putative tumor-suppressor gene p16 was mapped to human chromosome 9p21, close to the interferon alpha cluster. The frequency and association of gene alterations of p16, interferon alpha and interferon beta were investigated in a total of 39 Acute Lymphoblastic Leukemia (ALL) patients. Of these, 10 patients (25.6 per cent) presented abnormalities of at least one of the three genes studied. In 32 ALL cases studies of the three genes could be accomplished. In 23 out of 32 ALL cases the 3 genes studied were normally preserved. In the remaining 9 ALL, p16 was affected in 8 cases by homozygous deletions. In 2 patients, p16 deletion was associated with homozygous deletions for interferon alpha and interferon beta genes and in 1 case with total deletion of interferon beta 1 gene and partial deletion of interferon alpha. In the remaining 5 cases, p16 was the only gene deleted with no alteration of type interferon genes. These data indicate that p16 gene is deleted in a higher frequency than type I interferon genes in ALL. Moreover, within the ALL group with p16 gene deletion, 37.5 per cent are associated with interferon deletions and in general, ALL with alpha and/or beta interferon gene deletions are associated with p16 deletions. Therefore, p16 gene deletion with preserved type I interferon genes in some ALL suggests that the absence of this cdk inhibitor may disturb the normal cell cycle and favor blast transformation. (AU)