TY - JOUR
T1 - Integrated mutational and cytogenetic analysis identifies new prognostic subgroups in chronic lymphocytic leukemia
AU - Rossi, Davide
AU - Rasi, Silvia
AU - Spina, Valeria
AU - Bruscaggin, Alessio
AU - Monti, Sara
AU - Ciardullo, Carmela
AU - Deambrogi, Clara
AU - Khiabanian, Hossein
AU - Serra, Roberto
AU - Bertoni, Francesco
AU - Forconi, Francesco
AU - Laurenti, Luca
AU - Marasca, Roberto
AU - Dal-Bo, Michele
AU - Rossi, Francesca Maria
AU - Bulian, Pietro
AU - Nomdedeu, Josep
AU - Del Poeta, Giovanni
AU - Gattei, Valter
AU - Pasqualucci, Laura
AU - Rabadan, Raul
AU - Foà, Robin
AU - Dalla-Favera, Riccardo
AU - Gaidano, Gianluca
PY - 2013/2/21
Y1 - 2013/2/21
N2 - The identification of new genetic lesions in chronic lymphocytic leukemia (CLL) prompts a comprehensive and dynamic prognostic algorithm including gene mutations and chromosomal abnormalities and their changes during clonal evolution. By integrating mutational and cytogenetic analysis in 1274 CLL samples and using both a training-validation and a time-dependent design, 4 CLL subgroups were hierarchically classified: (1) high-risk, harboring TP53 and/or BIRC3 abnormalities (10-year survival: 29%); (2) intermediate-risk, harboring NOTCH1 and/or SF3B1 mutations and/or del11q22-q23 (10-year survival: 37%); (3) low-risk, harboring +12 or a normal genetics (10-year survival: 57%); and (4) very low-risk, harboring del13q14 only, whose 10-year survival (69.3%) did not significantly differ from a matched general population. This integrated mutational and cytogenetic model independently predicted survival, improved CLL prognostication accuracy compared with FISH karyotype (P <.0001), and was externally validated in an independent CLL cohort. Clonal evolution from lower to higher risk implicated the emergence of NOTCH1, SF3B1, and BIRC3 abnormalities in addition to TP53 and 11q22-q23 lesions. By taking into account clonal evolution through time-dependent analysis, the genetic model maintained its prognostic relevance at any time from diagnosis. These findings may have relevant implications for the design of clinical trials aimed at assessing the use of mutational profiling to inform therapeutic decisions.
AB - The identification of new genetic lesions in chronic lymphocytic leukemia (CLL) prompts a comprehensive and dynamic prognostic algorithm including gene mutations and chromosomal abnormalities and their changes during clonal evolution. By integrating mutational and cytogenetic analysis in 1274 CLL samples and using both a training-validation and a time-dependent design, 4 CLL subgroups were hierarchically classified: (1) high-risk, harboring TP53 and/or BIRC3 abnormalities (10-year survival: 29%); (2) intermediate-risk, harboring NOTCH1 and/or SF3B1 mutations and/or del11q22-q23 (10-year survival: 37%); (3) low-risk, harboring +12 or a normal genetics (10-year survival: 57%); and (4) very low-risk, harboring del13q14 only, whose 10-year survival (69.3%) did not significantly differ from a matched general population. This integrated mutational and cytogenetic model independently predicted survival, improved CLL prognostication accuracy compared with FISH karyotype (P <.0001), and was externally validated in an independent CLL cohort. Clonal evolution from lower to higher risk implicated the emergence of NOTCH1, SF3B1, and BIRC3 abnormalities in addition to TP53 and 11q22-q23 lesions. By taking into account clonal evolution through time-dependent analysis, the genetic model maintained its prognostic relevance at any time from diagnosis. These findings may have relevant implications for the design of clinical trials aimed at assessing the use of mutational profiling to inform therapeutic decisions.
UR - http://www.scopus.com/inward/record.url?scp=84874428346&partnerID=8YFLogxK
U2 - 10.1182/blood-2012-09-458265
DO - 10.1182/blood-2012-09-458265
M3 - Article
SN - 0006-4971
VL - 121
SP - 1403
EP - 1412
JO - Blood
JF - Blood
IS - 8
ER -