Publications by authors named "Hugues de The"

In recent decades, millions of patients with cancer have been cured by chemotherapy alone. By 'cure', we mean that patients with cancers that would be fatal if left untreated receive a time-limited course of chemotherapy and their cancer disappears, never to return. In an era when hundreds of thousands of cancer genomes have been sequenced, a remarkable fact persists: in most patients who have been cured, we still do not fully understand the mechanisms underlying the therapeutic index by which the tumour cells are killed, but normal cells are somehow spared.

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  • The study investigates the role of RNF111, a ubiquitin ligase, in hematopoiesis and its influence on hematopoietic stem and progenitor cells (HSPC).
  • Researchers created a mutant zebrafish line with a knockout of Rnf111, which revealed impaired HSPC development associated with decreased Smad2/3 phosphorylation.
  • The findings suggest that RNF111 is crucial for HSPC development by regulating Smad2/3 phosphorylation and activating the Gcsfr/NO signaling pathway.
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Understanding the regulation of normal erythroid development will help to develop new potential therapeutic strategies for disorders of the erythroid lineage. Cellular repressor of E1A-stimulated genes 1 (CREG1) is a glycoprotein that has been implicated in the regulation of tissue homeostasis. However, its role in erythropoiesis remains largely undefined.

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The story of acute promyelocytic leukemia (APL) discovery, physiopathology, and treatment is a unique journey, transforming the most aggressive form of leukemia to the most curable. It followed an empirical route fueled by clinical breakthroughs driving major advances in biochemistry and cell biology, including the discovery of PML nuclear bodies (PML NBs) and their central role in APL physiopathology. Beyond APL, PML NBs have emerged as key players in a wide variety of biological functions, including tumor-suppression and SUMO-initiated protein degradation, underscoring their broad importance.

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Acute promyelocytic leukemia (APL) is driven by the promyelocytic leukemia (PML)/retinoic acid receptor α (RARA) fusion oncoprotein. Over the years, it has emerged as a model system to understand how this simple (and sometimes sole) genetic alteration can transform hematopoietic progenitors through the acquisition of dominant-negative properties toward both transcriptional control by nuclear receptors and PML-mediated senescence. The fortuitous identification of two drugs, arsenic trioxide (ATO) and all--retinoic acid (ATRA), that respectively bind PML and RARA to initiate PML/RARA degradation, has allowed an unprecedented dissection of the cellular and molecular mechanisms involved in patients' cure by the ATO/ATRA combination.

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Neutrophils are key component of the innate immune system in vertebrates. Diverse transcription factors and cofactors act in a well-coordinated manner to ensure proper neutrophil development. Dysregulation of the transcriptional program triggering neutrophil differentiation is associated with various human hematologic disorders such as neutropenia, neutrophilia, and leukemia.

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PML assembles into nuclear domains that have attracted considerable attention from cell and cancer biologists. Upon stress, PML nuclear bodies modulate sumoylation and other post-translational modifications, providing an integrated molecular framework for the multiple roles of PML in apoptosis, senescence, or metabolism. PML is both a sensor and an effector of oxidative stress.

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  • Adult T cell leukemia/lymphoma (ATL) is a severe cancer linked to long-term infection with the HTLV-1 virus, where the Tax protein plays a significant role in transforming T cells by activating key pathways.
  • Surprisingly, most ATL cells show low levels of the Tax protein, while another viral protein, HBZ, seems to counteract its effects.
  • The study reveals that ATL cell survival relies on ongoing Tax expression, and without it, critical biological functions are disrupted, leading to cell death; thus, both Tax and interleukin-10 (IL-10) are identified as important targets for potential therapies.
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YPEL5 is a member of the Yippee-like (YPEL) gene family that is evolutionarily conserved in eukaryotic species. To date, the physiological function of YPEL5 has not been assessed due to a paucity of genetic animal models. Here, using CRISPR/Cas9-mediated genome editing, we generated a stable ypel5-/- mutant zebrafish line.

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  • Patients with Fanconi anemia (FA) show chromosome instability, leading to exhaustion of hematopoietic stem cells and a higher risk of developing poor-prognosis myeloid leukemia.
  • A study involving 62 patients revealed unique mutations and structural variants that resemble BRCA-related cancers, with many patients showing chromosome 1q gain linked to MDM4 trisomy, which downregulates p53 signaling.
  • MDM4 triplication not only enhances the survival of FA stem cells but also promotes leukemia development, suggesting that targeting MDM4 could be a potential therapeutic strategy to disrupt this pathway.
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Macrophages and their precursor cells, monocytes, are the first line of defense of the body against foreign pathogens and tissue damage. Although the origins of macrophages are diverse, some common transcription factors (such as PU.1) are required to ensure proper development of monocytes/macrophages.

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Membrane-less organelles are condensates formed by phase separation whose functions often remain enigmatic. Upon oxidative stress, PML scaffolds Nuclear Bodies (NBs) to regulate senescence or metabolic adaptation. PML NBs recruit many partner proteins, but the actual biochemical mechanism underlying their pleiotropic functions remains elusive.

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By querying metabolic pathways associated with leukemic stemness and survival in multiple AML datasets, we nominated SLC7A11 encoding the xCT cystine importer as a putative AML dependency. Genetic and chemical inhibition of SLC7A11 impaired the viability and clonogenic capacity of AML cell lines in a cysteine-dependent manner. Sulfasalazine, a broadly available drug with xCT inhibitory activity, had anti-leukemic activity against primary AML samples in ex vivo cultures.

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Sumoylation is an essential post-translational modification that has evolved to regulate intricate networks within emerging complexities of eukaryotic cells. Thousands of target substrates are modified by SUMO peptides, leading to changes in protein function, stability or localization, often by modulating interactions. At the cellular level, sumoylation functions as a key regulator of transcription, nuclear integrity, proliferation, senescence, lineage commitment and stemness.

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According to a hierarchical model, targeting leukemia-initiating cells (LICs) was speculated to achieve complete remission (CR) or cure. Nonetheless, increasing evidence emphasized the plasticity of differentiated blasts undergoing interconversion into LICs. We exploited murine models of acute promyelocytic leukemia (APL), a subtype of acute myeloid leukemia driven by the promyelocytic leukemia/retinoic acid receptor (PML-RARα) oncofusion protein, which recruits histone deacetylase (HDAC)-containing complexes.

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BET inhibitors (BETi) including OTX015 (MK-8628) and JQ1 demonstrated antileukemic activity including AML cells. Nevertheless, the biological consequences of BETi in AML were not fully investigated. Even if of better prognosis AML patients with may relapse and treatment remains difficult.

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The ubiquitin-proteasome system plays important roles in various biological processes as it degrades the majority of cellular proteins. Adequate proteasomal degradation of crucial transcription regulators ensures the proper development of neutrophils. The ubiquitin E3 ligase of Growth factor independent 1 (GFI1), a key transcription repressor governing terminal granulopoiesis, remains obscure.

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  • Mutations in the NPM1 gene are linked to acute myeloid leukemia (AML) and are associated with better treatment responses, but their mechanisms are not fully understood.* -
  • The oncogenic NPM1c mutant disrupts mitochondrial function and the formation of promyelocytic leukemia nuclear bodies, which regulate mitochondrial health and cellular aging.* -
  • Actinomycin D (ActD) enhances the effectiveness of treatments by targeting mitochondria, increasing reactive oxygen species, and restoring PML nuclear body formation, particularly when combined with venetoclax for improved AML treatment outcomes.*
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In this issue, Maimaitiyiming and colleagues demonstrate thermic stress-induced PML/RARA oncogenic fusion protein destabilization driven by corepressor aggregation. Hyperthermia synergizes with PML/RARA degradation by ATO and may circumvent ATO-resistance in historical APL patients. This novel approach could be extended to other corepressor-associated oncogenic fusion proteins.

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The most frequent genetic alteration in acute myeloid leukemia (AML) is the mutation of nucleophosmin 1 (NPM1). Yet, its downstream oncogenic routes are not fully understood. Here, we report the identification of one long noncoding RNA (lncRNA) overexpressed in NPM1-mutated AML patients (named LONA) whose intracellular localization inversely reflects that of NPM1.

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Synopsis of recent research by authors named "Hugues de The"

  • - Recent research by Hugues de The has focused on the roles of specific proteins and pathways in hematopoiesis and erythroid development, highlighting the pivotal roles of RNF111 and CREG1 in zebrafish models, and their interplay with the TGF-β/Smad signaling pathways.
  • - The exploration of acute promyelocytic leukemia (APL), particularly the molecular mechanisms behind the PML-RARA fusion proteins and their interactions with drugs like arsenic trioxide and all-trans retinoic acid, has revealed significant insights into cancer treatment and biology, emphasizing PML's role in regulating cellular pathways.
  • - De The's studies also extend to the broader implications of nuclear bodies in leukemia therapies and the relationships between different transcription factors in immune cell development, underlining both the complexity and crucial nature of these biological processes in health and disease.