Olga Lancho scite author profile

MYC is one of the most important oncogenes in cancer. Indeed, MYC is upregulated in 50–60% of all tumors. MYC overexpression can be achieved through a variety of mechanisms, including gene duplications, chromosomal translocations or somatic mutations leading to increased MYC stability. However, recent studies have identified numerous tissue-specific non-coding enhancers of MYC that play major roles in cancer, highlighting long-range transcriptional regulation of MYC as a critical novel mechanism leading to MYC hyperactivation and as a potential target for new therapeutic strategies in the near future. Here, we summarize the regions and mechanisms involved in the long-range transcriptional regulation of MYC, underscoring the relevance of MYC enhancers both in normal physiological development and in MYC-driven cancer initiation and progression.

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SHMT inhibition is effective and synergizes with methotrexate in T-cell acute lymphoblastic leukemia

García-Cañaveras

Lancho

Ducker

et al. 2020

Leukemia

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Folate metabolism enables cell growth by providing one-carbon (1C) units for nucleotide biosynthesis. The 1C units are carried by tetrahydrofolate (THF), whose production by the enzyme DHFR is targeted by the important anticancer drug methotrexate. 1C units come largely from serine catabolism by the enzyme SHMT, whose mitochondrial isoform is strongly upregulated in cancer. Here we report the SHMT inhibitor SHIN2 and demonstrate its in vivo target engagement with 13 C-serine tracing. As methotrexate is standard treatment for T-cell acute lymphoblastic leukemia (T-ALL), we explored the utility of SHIN2 in this disease. SHIN2 increases survival in NOTCH1-driven mouse primary T-ALL in vivo . Low dose methotrexate sensitizes Molt4 human T-ALL cells to SHIN2, and cells rendered methotrexate resistant in vitro show enhanced sensitivity to SHIN2. Finally, SHIN2 and methotrexate synergize in mouse primary T-ALL and in a human patient-derived xenograft in vivo , increasing survival. Thus, SHMT inhibition offers a complementary strategy in the treatment of T-ALL.

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A Tumor Suppressor Enhancer ofPTENin T-cell Development and Leukemia

Tottone

Lancho

Loh

et al. 2021

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A Therapeutically Targetable NOTCH1–SIRT1–KAT7 Axis in T-cell Leukemia

Lancho

Singh

Silva-Diz

et al. 2022

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T-cell Acute Lymphoblastic Leukemia (T-ALL) is a NOTCH1-driven disease in need of novel therapies. Here, we identified a NOTCH1-SIRT1-KAT7 link as a therapeutic vulnerability in T-ALL, in which the histone deacetylase SIRT1 is overexpressed downstream of a NOTCH1-bound enhancer. SIRT1 loss impaired leukemia generation, while SIRT1 overexpression accelerated leukemia and conferred resistance to NOTCH1 inhibition in a deacetylase-dependent manner. Moreover, pharmacological or genetic inhibition of SIRT1 resulted in significant antileukemic effects. Global acetyl-proteomics upon SIRT1 loss uncovered hyperacetylation of KAT7 and BRD1, subunits of a histone acetyltransferase complex targeting H4K12. Metabolic and gene expression profiling revealed metabolic changes together with a transcriptional signature resembling KAT7 deletion. Consistently, SIRT1 loss resulted in reduced H4K12ac, and overexpression of a non-acetylatable KAT7 mutant partly rescued SIRT1 loss-induced proliferation defects. Overall, our results uncovered novel therapeutic targets in T-ALL and revealed a circular feedback mechanism balancing deacetylase/acetyltransferase activation with potentially broad relevance in cancer.

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A novel and highly effective mitochondrial uncoupling drug in T-cell leukemia

Silva-Diz

Cao

Lancho

et al. 2021

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T-cell acute lymphoblastic leukemia (T-ALL) is an aggressive hematologic malignancy. Despite recent advances in treatments with intensified chemotherapy regimens, relapse rates and associated morbidities remain high. In this context, metabolic dependencies have emerged as a druggable opportunity for the treatment of leukemia. Here, we tested the antileukemic effects of MB1-47, a newly developed mitochondrial uncoupling compound. MB1-47 treatment in T-ALL cells robustly inhibited cell proliferation via both cytostatic and cytotoxic effects as a result of compromised mitochondrial energy and metabolite depletion, which severely impaired nucleotide biosynthesis. Mechanistically, acute treatment with MB1-47 in primary leukemias promoted AMPK activation and downregulation of mTOR signaling, stalling anabolic pathways that support leukemic cell survival. Indeed, MB1-47 treatment in mice harboring either murine NOTCH1-induced primary leukemias or human T-ALL PDXs led to potent antileukemic effects with a significant extension in survival without overlapping toxicities. Overall, our findings demonstrate a critical role for mitochondrial oxidative phosphorylation in T-ALL and uncover MB1-47-driven mitochondrial uncoupling as a novel therapeutic strategy for the treatment of this disease.

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Olga Lancho

The MYC Enhancer-ome: Long-Range Transcriptional Regulation of MYC in Cancer

SHMT inhibition is effective and synergizes with methotrexate in T-cell acute lymphoblastic leukemia

A Tumor Suppressor Enhancer ofPTENin T-cell Development and Leukemia

A Therapeutically Targetable NOTCH1–SIRT1–KAT7 Axis in T-cell Leukemia

A novel and highly effective mitochondrial uncoupling drug in T-cell leukemia

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