Browsing by Author "Catarino, Telmo A."
Now showing 1 - 2 of 2
Results Per Page
Sort Options
- Cdkn2a inactivation promotes malignant transformation of mouse immature thymocytes before the β-selection checkpointPublication . Catarino, Telmo A.; Pacheco-Leyva, Ivette; Kindi, Faiza Al; Ghezzo, Marinella N.; Fernandes, Mónica T.; Costa, Telma; Rodrigues Dos Santos, NunoCDKN2A deletion is the most frequent genetic alteration in T-cell acute lymphoblastic leukemia (T-ALL), occurring across all molecular and immunophenotypic subtypes. CDKN2A encodes two functionally unrelated tumor suppressor proteins, ARF and INK4a, which are critical regulators of cell cycle and proliferation. Arf has been reported to suppress T-ALL development in post−b-selection thymocytes, but whether CDKN2A acts as a tumor suppressor gene in immature, pre−b-selection thymocytes remains to be elucidated. Resorting to a Rag2-deficient model of T-ALL, driven by the ETV6:: JAK2 fusion, we report that Cdkn2a haploinsufficiency at early stages of T-cell development facilitates leukemia development
- Transgenic αβ TCR tonic signaling is leukemogenic while strong stimulation is leukemia suppressivePublication . Catarino, Telmo A.; Pacheco-Leyva, Ivette; Baessa, Marina; Pereira, João L.; Rodrigues dos Santos, NunoThe pre–T cell receptor (TCR) and TCR complexes are frequently expressed in T cell acute lymphoblastic leukemia (T-ALL), an aggressive T cell precursor malignancy. Although mutations in TCR components are infrequent in T-ALL, earlier research indicated that transgenic αβ TCR expression in mouse T cell precursors promoted T-ALL development. However, we recently found that stimulation of TCR signaling in T-ALL induced leukemic cell apoptosis and suppressed leukemia. Our aim was to elucidate if a given αβ TCR complex has a dual role in leukemogenesis depending on the nature of the stimulus. We demonstrate that transgenic expression of the Marilyn αβ TCR, specific for the H-Y male antigen presented by major histocompatibility complex class II, triggers T-ALL development exclusively in female mice. This T-ALL exhibited Notch1 mutations, Cdkn2a copy number loss, and immature immunophenotype, and infiltrated both lymphoid and nonlymphoid organs. Furthermore, leukemic cells expressed surface CD5, a marker of tonic TCR signaling. T-ALL efficiently developed in Rag2-deficient Marilyn transgenic females, indicating that Rag2-mediated recombination is not implicated in this T-ALL model. T-ALL development was also observed in the OT-I TCR transgenic mouse model, but it did not occur when major histocompatibility complex class I was abrogated through genetic inactivation of β2-microglobulin. Remarkably, exposure of Marilyn female T-ALL cells to endogenous agonist antigens in male recipient mice or exogenous peptides in female recipient mice resulted in T-ALL apoptosis and prolonged mouse survival. These findings underscore the dual role of the same αβ TCR complex in T-ALL, in which tonic stimulation is leukemogenic, while strong stimulation suppresses leukemia.