The Akt/mTOR and MNK/eIF4E pathways rewire the prostate cancer translatome to secrete HGF, SPP1 and BGN and recruit suppressive myeloid cells
Brina D, Ponzoni A, Troiani M, Calì B, Pasquini E, Attanasio G, Mosole S, Mirenda M, D’Ambrosio M, Colucci M, Guccini I, Revandkar A, Alajati A, Tebaldi T, Donzel D, Lauria F, Parhizgari N, Valdata A, Maddalena M, Calcinotto A, Bolis M, Rinaldi A, Barry S, Rüschoff J, Sabbadin M, Sumanasuriya S, Crespo M, Sharp A, Yuan W, Grinu M, Boyle A, Miller C, Trotman L, Delaleu N, Fassan M, Moch H, Viero G, de Bono J, Alimonti A. The Akt/mTOR and MNK/eIF4E pathways rewire the prostate cancer translatome to secrete HGF, SPP1 and BGN and recruit suppressive myeloid cells. Nature Cancer 2023, 4: 1102-1121. PMID: 37460872, PMCID: PMC11331482, DOI: 10.1038/s43018-023-00594-z.Peer-Reviewed Original ResearchConceptsMyeloid-derived suppressor cellsProstate cancerAvailable immunotherapiesSuppressive myeloid cellsAKT inhibitor ipatasertibAkt/mTORProstate tumor cellsDifferent genetic alterationsMDSC infiltrationSuppressor cellsImmune surveillanceMDSC migrationTherapeutic strategiesMyeloid cellsTumor growthImmunotherapyCancerTumor cellsMNK1/2 inhibitorGenetic alterationsHGFSPP1Translational levelCellsCoordinated lossAlpha-1 Adrenergic Antagonists Sensitize Neuroblastoma to Therapeutic Differentiation.
Broso F, Gatto P, Sidarovich V, Ambrosini C, De Sanctis V, Bertorelli R, Zaccheroni E, Ricci B, Destefanis E, Longhi S, Sebastiani E, Tebaldi T, Adami V, Quattrone A. Alpha-1 Adrenergic Antagonists Sensitize Neuroblastoma to Therapeutic Differentiation. Cancer Research 2023, 83: 2733-2749. PMID: 37289021, DOI: 10.1158/0008-5472.can-22-1913.Peer-Reviewed Original ResearchConceptsResidual diseaseAdrenergic antagonistsAdrenergic receptorsAlpha-1 adrenergic antagonistAdministration of doxazosinPost-consolidation therapyOverall survival probabilityPrevention of relapseHigh-risk casesMultimodal therapeutic approachPost-consolidation phaseDifferentiation of neuroblastomaNB cell viabilityAggressive childhood tumorRetinoids isotretinoinPediatric patientsΑ1B-adrenergic receptorPrevent relapseChildhood tumorsTherapeutic approachesSpecific blockadeNB cellsPharmacologic targetNeuroblastomaTumor growth