Mia Thorsélius scite author profile

We recently reported that Swedish V H 3-21-using chronic lymphocytic leukemia (CLL) patients showed restricted immunoglobulin gene features and poor prognosis despite V H mutation status. To investigate this further, we analyzed the V H and V L gene rearrangements in 90 V H 3-21 ؉ patients from Sweden, Germany, Italy, United States, Finland, and Australia and correlated these data with survival and other prognostic markers. Sixty-three percent exhibited mutated V H genes and 37% unmutated V H genes. Fifty (56%) patients displayed a short and homologous heavy-

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Mutated VH genes and preferential VH3-21 use define new subsets of mantle cell lymphoma

Walsh

Thorsélius²,

Johnson³

et al. 2003

102

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Comprehensive characterization of IGHV3-21–expressing B-cell chronic lymphocytic leukemia: an Italian multicenter study

Bomben

Capello

et al. 2006

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Somatic hypermutation and V_H gene usage in mantle cell lymphoma

Thorsélius

Walsh

Eriksson

et al. 2002

European J of Haematology

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Mantle cell lymphoma (MCL) is considered to derive from naïve, pregerminal center (GC) CD5+ B-cells. However, the cell of origin has been questioned in recent studies that showed somatic hypermutations in the immunoglobulin (Ig) variable heavy chain (V(H)) genes in subsets of MCL. To clarify this issue, we analyzed the IgV(H) genes for the presence of somatic hypermutations in 51 MCL cases. Twenty percent of the MCL cases displayed somatically mutated V(H) genes (defined as >2% mutated), whereas 80% showed unmutated V(H) genes. This finding suggests that MCL is a genetically heterogeneous disease, with the majority of cases originating from unmutated pre-GC B-cells and a subset deriving from more mature B-cells which have been exposed to the GC environment and have undergone somatic hypermutation. A biased V(H) gene usage has been demonstrated in several B-cell malignancies; however, this has not yet been investigated in MCL, although V(H)4-34 overusage has been indicated by small studies. Interestingly, we found a restricted usage of three individual V(H) genes in our MCL material; V(H)4-34 (22%), V(H)3-21 (16%) and V(H)5-51 (12%). This novel finding of preferential V(H) gene usage in half of the MCL cases may suggest an antigen driven process occurring in B-cells expressing specific VH genes, thus implicating that Ig specificity could be involved in mantle cell lymphoma development.

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Heterogeneous somatic hypermutation status confounds the cell of origin in hairy cell leukemia

et al. 2005

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Telomere length and correlation with histopathogenesis in B‐cell leukemias/lymphomas

Walsh

Grabowski

Berglund

et al. 2007

European J of Haematology

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Telomere length was recently reported to correlate with cellular origin of B-cell malignancies in relation to the germinal center (GC). In this report, we measured telomere length by quantitative-PCR in 223 B-cell lymphomas/leukemias and correlated results with immunoglobulin (Ig) mutation status and immunostainings for GC/non-GC subtypes of diffuse large B-cell lymphoma (DLBCL). Shortest telomeres were found in Ig-unmutated chronic lymphocytic leukemia (CLL) [median telomere to single copy gene value (T/S) 0.33], differing significantly to Ig-mutated CLL (0.63). Contrary to this, mantle cell lymphomas (MCLs) exhibited similar telomere lengths regardless of Ig mutation status (0.47). Telomere length differed significantly between GC-like (0.73) and non-GC-like DLBCLs (0.43), and follicular lymphomas (FLs) had shorter telomeres (0.53) than GC-DLBCL. Hairy cell leukemias, which display Ig gene intraclonal heterogeneity, had longer telomeres (0.62) than FLs and non-GC-DLBCL, but shorter than GC-DLBCL. We conclude that although DLBCL and CLL subsets can be clearly distinguished, telomere length reflects many parameters and may not simply correlate with GC-related origin.

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U‐2973, a novel B‐cell line established from a patient with a mature B‐cell leukemia displaying concurrent t(14;18) and MYC translocation to a non‐IG gene partner

Boström

Leuchowius

Hallböök

et al. 2008

European J of Haematology

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B-cell lymphomas/leukemias with simultaneous t(14;18)(q32;q21) and MYC rearrangements have recently been shown to constitute a separate diagnostic entity, presenting with a rapid clinical course and a very poor prognosis. We describe the establishment of an Epstein-Barr virus negative cell line, designated U-2973, from a male patient with a de novo aggressive B-cell lymphoma/leukemia and very high peripheral blast cell count. Flow cytometry of bone marrow cells and U-2973 displayed a mature B-cell phenotype, and immunostaining showed expression of MYC and BCL2. IG gene rearrangement data were consistent with a lymphoid neoplasm of germinal centre derivation. Cytogenetic studies using conventional G-banding, fluorescent in situ hybridization, spectral karyotyping and single nucleotide polymorphism array demonstrated a complex karyotype with both a t(14;18) and double translocations between MYC and a non-IG gene partner located at chromosome 12p12.1.

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A Follicular Dendritic Cell Line Promotes Somatic Hypermutations in Ramos cells In Vitro

et al. 2008

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Mia Thorsélius

Strikingly homologous immunoglobulin gene rearrangements and poor outcome in VH3-21-using chronic lymphocytic leukemia patients independent of geographic origin and mutational status

Mutated VH genes and preferential VH3-21 use define new subsets of mantle cell lymphoma

Comprehensive characterization of IGHV3-21–expressing B-cell chronic lymphocytic leukemia: an Italian multicenter study

Somatic hypermutation and V_H gene usage in mantle cell lymphoma

Heterogeneous somatic hypermutation status confounds the cell of origin in hairy cell leukemia

Telomere length and correlation with histopathogenesis in B‐cell leukemias/lymphomas

U‐2973, a novel B‐cell line established from a patient with a mature B‐cell leukemia displaying concurrent t(14;18) and MYC translocation to a non‐IG gene partner

A Follicular Dendritic Cell Line Promotes Somatic Hypermutations in Ramos cells In Vitro

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Mia Thorsélius

Strikingly homologous immunoglobulin gene rearrangements and poor outcome in VH3-21-using chronic lymphocytic leukemia patients independent of geographic origin and mutational status

Mutated VH genes and preferential VH3-21 use define new subsets of mantle cell lymphoma

Comprehensive characterization of IGHV3-21–expressing B-cell chronic lymphocytic leukemia: an Italian multicenter study

Somatic hypermutation and VH gene usage in mantle cell lymphoma

Heterogeneous somatic hypermutation status confounds the cell of origin in hairy cell leukemia

Telomere length and correlation with histopathogenesis in B‐cell leukemias/lymphomas

U‐2973, a novel B‐cell line established from a patient with a mature B‐cell leukemia displaying concurrent t(14;18) and MYC translocation to a non‐IG gene partner

A Follicular Dendritic Cell Line Promotes Somatic Hypermutations in Ramos cells In Vitro

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Somatic hypermutation and V_H gene usage in mantle cell lymphoma