The role of inhibitor of kappa Bα (IKBA) mutations in lymphoid malignancies with constitutive NF-κB signaling remains to be defined. We recently characterized the molecular signatures of primary mediastinal large B-cell lymphoma (MLBCL) and 3 subtypes of diffuse large B-cell lymphoma (DLBCL).1,2  The primary MLBCL signature had striking similarities to that of classic Hodgkin lymphoma (cHL), a clinically related disorder.1,3  Like cHL, primary MLBCL exhibited nuclear localization of the c-REL subunit of NF-κB and increased expression of multiple NF-κB target genes.1,4  In addition, MLBCL cells transduced with an IκBα superrepressor exhibited markedly decreased NF-κB activity and significantly increased apoptosis, confirming the role of IκBα and the NF-κB pathway in MLBCL cell survival.4  Of interest, the newly identified host response (HR) subtype of DLBCL also had significantly increased coordinate expression of multiple NF-κB target genes, implicating the NF-κB survival pathway in this additional subtype of LBCL.2,4 

Previous studies suggest that DLBCLs that share features with normal in vitro activated B cells (“ABC-like” tumors) also exhibit NF-κB activation and express a more restricted set of NF-κB target genes.4,5  In addition, “ABC-like” DLBCL cells transduced with an IκBα superrepressor had markedly decreased tumor cell survival.5 

In earlier analyses of potential genetic bases for constitutive NF-κB activation in lymphoid malignancies, somatic mutations of IKBA were described in a subset of cHL.6-8  In contrast, IKBA mutations were rare in a recently described small series of “ABC-like” DLBCLs.9 IKBA mutations were not found in 9 of 10 of such differentiation-associated DLBCLs; a single tumor had both a somatically mutated and wild-type copy of IKBA.9 

To determine whether IKBA mutations were present in primary MLBCLs or HR DLBCLs, we subjected 26 MLBCL and 16 HR DLBCL RNAs to reverse-transcriptase-polymerase chain reaction (RT-PCR) of the entire coding region of IKBA cDNA and sequenced the resulting IKBA PCR products. Only 2 single nucleotide changes in the IKBA coding region (bp 95-1048) were identified (C to T, position 175; and C to T, position 400); neither nucleotide change altered the IKBA coding sequence.10  Both of the identified single nucleotide changes are recognized IKBA single nucleotide polymorphisms (SNPs; SNP IDs: rs1957106 and rs10782383) (http://www.ncbi.nlm.nih.gov/SNP). The polymorphism at position 175 was detected in 7 of 16 HR tumors, 2 of which were homozygous (T/T), and 12 of 26 MLBCLs, all of which were heterozygous (T/C). The polymorphism at position 400 was detected in 16 of 16 HR tumors, 7 of which were homozygous (C/C), and 25 of 26 MLBCLs, 16 of which were C/C. To exclude the possibility that infiltrating normal cells in primary MLBCLs and HR DLBCLs reduced the sensitivity of the assay, we identified the previously described IKBA mutation in L428 lymphoma cells8  using L428 RNA admixed with 4-fold higher concentrations of RNA from a cell line with wild-type IKBA (DHL6).

Taken together, our data and that of Thomas et al9  indicate that mutations of IKBA are largely absent in LBCL subtypes, including MLBCL, HR DLBCL, and the differentiation-associated “ABC-like” DLBCLs. These results suggest that alternative mechanisms are likely responsible for the constitutive activation of NF-κB in these tumors.

1
Savage K, Monti S, Kutok J, et al. The molecular signature of mediastinal large B-cell lymphoma differs from that of other diffuse large B-cell lymphomas and shares features with classical Hodgkin lymphoma.
Blood.
2003
;
102
:
3871
-3879.
2
Monti S, Savage KJ, Kutok JL, et al. Molecular profiling of diffuse large B-cell lymphoma identifies robust subtypes including one characterized by host inflammatory response.
Blood.
2005
;
105
:
1851
-1861.
3
Rosenwald A, Wright G, Leroy K, et al. Molecular diagnosis of primary mediastinal B cell lymphoma identifies a clinically favorable subgroup of diffuse large B cell lymphoma related to Hodgkin lymphoma.
J Exp Med.
2003
;
198
:
851
-862.
4
Feuerhake F, Kutok J, Monti S, et al. NFκB activity, function, and target-gene signatures in primary mediastinal large B-cell lymphoma and diffuse large B-cell lymphoma subtypes.
Blood.
2005
;
106
:
1392
-1399.
5
Davis RE, Brown KD, Siebenlist U, Staudt LM. Constitutive nuclear factor kappaB activity is required for survival of activated B cell-like diffuse large B cell lymphoma cells.
J Exp Med.
2001
;
194
:
1861
-1874.
6
Cabannes E, Khan G, Aillet F, Jarrett RF, Hay RT. Mutations of the IκBα gene in Hodgkin's disease suggest a tumour suppressor role for IκBα.
Oncogene.
1999
;
18
:
3063
-3070.
7
Emmerich F, Meiser M, Hummel M, et al. Overexpression of I kappa alpha without inhibition of NF-κB activity and mutations in the I kappa B alpha gene in Reed-Sternberg cells.
Blood.
1999
;
94
:
3129
-3134.
8
Jungnickel B, Staratschek-Jox A, Brauninger A, et al. Clonal deleterious mutations in the IκBα gene in the malignant cells in Hodgkin's lymphoma.
J Exp Med.
2000
;
191
:
395
-401.
9
Thomas RK, Wickenhauser C, Tawadros S, et al. Mutational analysis of the IκB gene in activated B cell-like diffuse large B-cell lymphoma.
Br J Haematol.
2004
;
126
:
50
-54.
10
Haskill S, Beg AA, Tompkins SM, et al. Characterization of an immediate-early gene induced in adherent monocytes that encodes I kappa B-like activity.
Cell.
1991
;
65
:
1281
-1289.
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