METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis

Guglielmo Bove; Mehrad Babaei; Alberto Bueno-Costa; Sajid Amin; Nicla Simonelli; Rosaria Benedetti; Carmela Dell’Aversana; Mariarosaria Conte; Liliana Montella; Vincenzo Summa; Margherita Brindisi; Maria Rosaria Del Sorbo; Marco Crepaldi; Gregorio Favale; Nuria Profitos-Peleja; Vincenzo Carafa; Gaël Roué; Fortunato Ciardiello; Annalisa Capuano; Hendrik G. Stunnenberg; Wouter L. Megchelenbrink; Angela Nebbioso; Manel Esteller; Lucia Altucci; Nunzio Del Gaudio

doi:10.1038/s41388-025-03563-1

METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis

Guglielmo Bove
, Mehrad Babaei
, Alberto Bueno-Costa
, Sajid Amin
, Nicla Simonelli
, Rosaria Benedetti
, Carmela Dell’Aversana
, Mariarosaria Conte
, Liliana Montella
, Vincenzo Summa
, Margherita Brindisi
, Maria Rosaria Del Sorbo
, Marco Crepaldi
, Gregorio Favale
, Nuria Profitos-Peleja
, Vincenzo Carafa
, Gaël Roué
, Fortunato Ciardiello
, Annalisa Capuano
, Hendrik G. Stunnenberg

Wouter L. Megchelenbrink, Angela Nebbioso, Manel Esteller, Lucia Altucci, Nunzio Del Gaudio

Group Stunnenberg

Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel › peer review

3 Citaten (Scopus)

Samenvatting

N6-methyladenosine (m⁶A) is an RNA modification that governs multiple aspects of RNA metabolism, including splicing, translation, stability, decay, and the processing of marked transcripts. Although accumulating evidence suggests that the m⁶A writer METTL16 is involved in leukemia, the molecular pathway(s) by which it contributes to leukemogenesis remain unexplored. In this study, we shed light on a novel molecular mechanism whereby METTL16 plays a role in acute myeloid leukemia (AML) progression through an m⁶A-dependent manner. Our investigations revealed that METTL16 is overexpressed in primary AML cells. Genetic depletion of METTL16 or its pharmacological inhibition strongly affected the proliferation of AML cells, eventually triggering apoptosis. Transcriptome-wide analysis identified mRNA of MAX Dimerization Protein 4 (MXD4), a MYC pathway regulator, as a downstream target of METTL16. Mechanistically, we showed that METTL16 controls the stability of MXD4 mRNA, resulting in a reduction in MXD4 protein levels that indirectly activates the MYC-MAX axis, essential for leukemogenesis. Strikingly, the suppression of MXD4 rescued the expression levels of MYC target genes, restoring AML cell survival. Our findings unveil a novel METTL16-MXD4 oncogenic axis crucial for AML progression, establishing small-molecule inhibition of METTL16 as a potential therapeutic approach in leukemia and providing a new strategy to target MYC activity in cancer.

Originele taal-2	Engels
Pagina's (van-tot)	4159-4172
Aantal pagina's	14
Tijdschrift	Oncogene
Volume	44
Nummer van het tijdschrift	43
DOI's	https://doi.org/10.1038/s41388-025-03563-1
Status	Gepubliceerd - 11 nov. 2025

Toegang tot document

10.1038/s41388-025-03563-1

Citeer dit

Bove, G., Babaei, M., Bueno-Costa, A., Amin, S., Simonelli, N., Benedetti, R., Dell’Aversana, C., Conte, M., Montella, L., Summa, V., Brindisi, M., Del Sorbo, M. R., Crepaldi, M., Favale, G., Profitos-Peleja, N., Carafa, V., Roué, G., Ciardiello, F., Capuano, A., ... Del Gaudio, N. (2025). METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis. Oncogene, 44(43), 4159-4172. https://doi.org/10.1038/s41388-025-03563-1

@article{0122068b83f442f19f765b6246ff915e,

title = "METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis",

abstract = "N6-methyladenosine (m6A) is an RNA modification that governs multiple aspects of RNA metabolism, including splicing, translation, stability, decay, and the processing of marked transcripts. Although accumulating evidence suggests that the m6A writer METTL16 is involved in leukemia, the molecular pathway(s) by which it contributes to leukemogenesis remain unexplored. In this study, we shed light on a novel molecular mechanism whereby METTL16 plays a role in acute myeloid leukemia (AML) progression through an m6A-dependent manner. Our investigations revealed that METTL16 is overexpressed in primary AML cells. Genetic depletion of METTL16 or its pharmacological inhibition strongly affected the proliferation of AML cells, eventually triggering apoptosis. Transcriptome-wide analysis identified mRNA of MAX Dimerization Protein 4 (MXD4), a MYC pathway regulator, as a downstream target of METTL16. Mechanistically, we showed that METTL16 controls the stability of MXD4 mRNA, resulting in a reduction in MXD4 protein levels that indirectly activates the MYC-MAX axis, essential for leukemogenesis. Strikingly, the suppression of MXD4 rescued the expression levels of MYC target genes, restoring AML cell survival. Our findings unveil a novel METTL16-MXD4 oncogenic axis crucial for AML progression, establishing small-molecule inhibition of METTL16 as a potential therapeutic approach in leukemia and providing a new strategy to target MYC activity in cancer.",

keywords = "Signal Transduction, Humans, Proto-Oncogene Proteins c-myc/metabolism, Gene Expression Regulation, Leukemic, Apoptosis/genetics, Tumor Suppressor Proteins/genetics, Animals, Adenosine/analogs \& derivatives, Cell Line, Tumor, Methyltransferases/genetics, Cell Proliferation/genetics, Mice, Leukemia, Myeloid, Acute/genetics",

author = "Guglielmo Bove and Mehrad Babaei and Alberto Bueno-Costa and Sajid Amin and Nicla Simonelli and Rosaria Benedetti and Carmela Dell{\textquoteright}Aversana and Mariarosaria Conte and Liliana Montella and Vincenzo Summa and Margherita Brindisi and \{Del Sorbo\}, \{Maria Rosaria\} and Marco Crepaldi and Gregorio Favale and Nuria Profitos-Peleja and Vincenzo Carafa and Ga{\"e}l Rou{\'e} and Fortunato Ciardiello and Annalisa Capuano and Stunnenberg, \{Hendrik G.\} and Megchelenbrink, \{Wouter L.\} and Angela Nebbioso and Manel Esteller and Lucia Altucci and \{Del Gaudio\}, Nunzio",

note = "{\textcopyright} 2025. The Author(s).",

year = "2025",

month = nov,

day = "11",

doi = "10.1038/s41388-025-03563-1",

language = "English",

volume = "44",

pages = "4159--4172",

journal = "Oncogene",

issn = "0950-9232",

publisher = "Springer Nature",

number = "43",

}

Bove, G, Babaei, M, Bueno-Costa, A, Amin, S, Simonelli, N, Benedetti, R, Dell’Aversana, C, Conte, M, Montella, L, Summa, V, Brindisi, M, Del Sorbo, MR, Crepaldi, M, Favale, G, Profitos-Peleja, N, Carafa, V, Roué, G, Ciardiello, F, Capuano, A, Stunnenberg, HG , Megchelenbrink, WL, Nebbioso, A, Esteller, M, Altucci, L & Del Gaudio, N 2025, 'METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis', Oncogene, vol. 44, nr. 43, blz. 4159-4172. https://doi.org/10.1038/s41388-025-03563-1

TY - JOUR

T1 - METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis

AU - Bove, Guglielmo

AU - Babaei, Mehrad

AU - Bueno-Costa, Alberto

AU - Amin, Sajid

AU - Simonelli, Nicla

AU - Benedetti, Rosaria

AU - Dell’Aversana, Carmela

AU - Conte, Mariarosaria

AU - Montella, Liliana

AU - Summa, Vincenzo

AU - Brindisi, Margherita

AU - Del Sorbo, Maria Rosaria

AU - Crepaldi, Marco

AU - Favale, Gregorio

AU - Profitos-Peleja, Nuria

AU - Carafa, Vincenzo

AU - Roué, Gaël

AU - Ciardiello, Fortunato

AU - Capuano, Annalisa

AU - Stunnenberg, Hendrik G.

AU - Megchelenbrink, Wouter L.

AU - Nebbioso, Angela

AU - Esteller, Manel

AU - Altucci, Lucia

AU - Del Gaudio, Nunzio

PY - 2025/11/11

Y1 - 2025/11/11

N2 - N6-methyladenosine (m6A) is an RNA modification that governs multiple aspects of RNA metabolism, including splicing, translation, stability, decay, and the processing of marked transcripts. Although accumulating evidence suggests that the m6A writer METTL16 is involved in leukemia, the molecular pathway(s) by which it contributes to leukemogenesis remain unexplored. In this study, we shed light on a novel molecular mechanism whereby METTL16 plays a role in acute myeloid leukemia (AML) progression through an m6A-dependent manner. Our investigations revealed that METTL16 is overexpressed in primary AML cells. Genetic depletion of METTL16 or its pharmacological inhibition strongly affected the proliferation of AML cells, eventually triggering apoptosis. Transcriptome-wide analysis identified mRNA of MAX Dimerization Protein 4 (MXD4), a MYC pathway regulator, as a downstream target of METTL16. Mechanistically, we showed that METTL16 controls the stability of MXD4 mRNA, resulting in a reduction in MXD4 protein levels that indirectly activates the MYC-MAX axis, essential for leukemogenesis. Strikingly, the suppression of MXD4 rescued the expression levels of MYC target genes, restoring AML cell survival. Our findings unveil a novel METTL16-MXD4 oncogenic axis crucial for AML progression, establishing small-molecule inhibition of METTL16 as a potential therapeutic approach in leukemia and providing a new strategy to target MYC activity in cancer.

AB - N6-methyladenosine (m6A) is an RNA modification that governs multiple aspects of RNA metabolism, including splicing, translation, stability, decay, and the processing of marked transcripts. Although accumulating evidence suggests that the m6A writer METTL16 is involved in leukemia, the molecular pathway(s) by which it contributes to leukemogenesis remain unexplored. In this study, we shed light on a novel molecular mechanism whereby METTL16 plays a role in acute myeloid leukemia (AML) progression through an m6A-dependent manner. Our investigations revealed that METTL16 is overexpressed in primary AML cells. Genetic depletion of METTL16 or its pharmacological inhibition strongly affected the proliferation of AML cells, eventually triggering apoptosis. Transcriptome-wide analysis identified mRNA of MAX Dimerization Protein 4 (MXD4), a MYC pathway regulator, as a downstream target of METTL16. Mechanistically, we showed that METTL16 controls the stability of MXD4 mRNA, resulting in a reduction in MXD4 protein levels that indirectly activates the MYC-MAX axis, essential for leukemogenesis. Strikingly, the suppression of MXD4 rescued the expression levels of MYC target genes, restoring AML cell survival. Our findings unveil a novel METTL16-MXD4 oncogenic axis crucial for AML progression, establishing small-molecule inhibition of METTL16 as a potential therapeutic approach in leukemia and providing a new strategy to target MYC activity in cancer.

KW - Signal Transduction

KW - Humans

KW - Proto-Oncogene Proteins c-myc/metabolism

KW - Gene Expression Regulation, Leukemic

KW - Apoptosis/genetics

KW - Tumor Suppressor Proteins/genetics

KW - Animals

KW - Adenosine/analogs & derivatives

KW - Cell Line, Tumor

KW - Methyltransferases/genetics

KW - Cell Proliferation/genetics

KW - Mice

KW - Leukemia, Myeloid, Acute/genetics

UR - https://www.scopus.com/pages/publications/105016835104

U2 - 10.1038/s41388-025-03563-1

DO - 10.1038/s41388-025-03563-1

M3 - Article

C2 - 40946103

AN - SCOPUS:105016835104

SN - 0950-9232

VL - 44

SP - 4159

EP - 4172

JO - Oncogene

JF - Oncogene

IS - 43

ER -

METTL16-mediated inhibition of MXD4 promotes leukemia through activation of the MYC-MAX axis

Samenvatting

Toegang tot document

Vingerafdruk

Citeer dit