Associations between Chromosomal Aberrations and Functional Impairment of the P53 Pathway in Chronic Lymphocytic Leukaemia.

Adverse prognostic factors in CLL include functional impairment of the p53 pathway [

Table 1

p53 dysfunction was positively associated with 17p− (P < 0.001) and 11q− (P = 0.029), negatively associated with +12 (P = 0.023) and 13q− (P = 0.007), and neither positively or negatively associated with normal karyotype. The frequency of p53 dysfunction in cases with 17p−, 11q−, +12, 13q−, or no FISH defects was 69.0%, 58.6%, 18.2%, 28.8% and 35.9% respectively. The frequency of 17p−, 11q−, +12, 13q−, or no FISH defects was 28.6%, 24.3%, 5.7%, 24.3% and 20.0% respectively in cases with p53 dysfunction, and 8.5%, 11.3%, 17.0%, 39.0% and 23.6% respectively in cases with no detectable p53 dysfunction. Among cases with p53 dysfunction, there was an association between the type A defect and 17p− (P < 0.001). Interestingly, among 17p− cases, the proportion of cells harbouring the 17p13 deletion negatively correlated with the amount of IR-induced p21 up-regulation (r = −0.608, P < 0.001) and positively correlated with baseline p53 levels (r = 0.398, P = 0.033). Indeed, p53 dysfunction was detected in all 15 cases with more than 50% 17p13-deleted cells but in fewer than half of the cases with less than 50% deletion. Together, these findings indicate that adverse karyotype and p53 dysfunction provide overlapping but non-identical information. The association between p53 dysfunction and 17p−/11q− supports the idea of a shared pathogenetic mechanism. On the other hand, the imperfect nature of this association justifies the continued evaluation of p53 functional analysis as a prognostic factor in CLL.