Alessandro Barberis
Overview
Explore the profile of Alessandro Barberis including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
127
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0
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Recent Articles
1.
Di Giovannantonio M, Hartley F, Elshenawy B, Barberis A, Hudson D, Shafique H, et al.
Cell Genom
. 2025 Feb;
5(2):100764.
PMID: 39892389
Tumor hypoxia drives metabolic shifts, cancer progression, and therapeutic resistance. Challenges in quantifying hypoxia have hindered the exploitation of this potential "Achilles' heel." While gene expression signatures have shown promise...
2.
Domingo E, Rathee S, Blake A, Samuel L, Murray G, Sebag-Montefiore D, et al.
EBioMedicine
. 2024 Jul;
106:105228.
PMID: 39013324
Background: It is uncertain which biological features underpin the response of rectal cancer (RC) to radiotherapy. No biomarker is currently in clinical use to select patients for treatment modifications. Methods:...
3.
Barberis A, Aerts H, Buffa F
Sci Rep
. 2024 Jan;
14(1):1933.
PMID: 38253545
Artificial intelligence (AI) techniques are increasingly applied across various domains, favoured by the growing acquisition and public availability of large, complex datasets. Despite this trend, AI publications often suffer from...
4.
Rodriguez-Berriguete G, Puliyadi R, Machado N, Barberis A, Prevo R, McLaughlin M, et al.
Cell Death Dis
. 2024 Jan;
15(1):32.
PMID: 38212297
Immune checkpoint blockade (ICB) provides effective and durable responses for several tumour types by unleashing an immune response directed against cancer cells. However, a substantial number of patients treated with...
5.
Triantafyllidis C, Barberis A, Hartley F, Cuervo A, Gjerga E, Charlton P, et al.
iScience
. 2023 Dec;
26(12):108291.
PMID: 38047081
TP53, the , is the most frequently mutated gene in human cancers and the functional characterization of its regulation is fundamental. To address this we employ two strategies: machine learning...
6.
Javaid H, Barberis A, Chervova O, Nassiri I, Voloshin V, Sato Y, et al.
BMC Cancer
. 2023 Aug;
23(1):721.
PMID: 37528416
SETD2-dependent H3 Lysine-36 trimethylation (H3K36me3) has been recently linked to the deposition of de-novo DNA methylation. SETD2 is frequently mutated in cancer, however, the functional impact of SETD2 loss and...
7.
Pasqualetti F, Barberis A, Zanotti S, Montemurro N, De Salvo G, Soffietti R, et al.
Crit Rev Oncol Hematol
. 2023 Jul;
188:104065.
PMID: 37392899
Despite advances in the therapy of Central Nervous System (CNS) malignancies, treatment of glioblastoma (GB) poses significant challenges due to GB resistance and high recurrence rates following post-operative radio-chemotherapy. The...
8.
Kawashima M, Bensaad K, Zois C, Barberis A, Bridges E, Wigfield S, et al.
Cancer Metab
. 2020 Aug;
8:18.
PMID: 32789015
[This corrects the article DOI: 10.1186/s40170-020-00219-4.].
9.
Kawashima M, Bensaad K, Zois C, Barberis A, Bridges E, Wigfield S, et al.
Cancer Metab
. 2020 Jul;
8:13.
PMID: 32647572
Background: Humans produce heat through non-shivering thermogenesis, a metabolic process that occurs in inducible beige adipocytes expressing uncoupling protein 1 (UCP1). UCP1 dissipates the proton gradient of the mitochondrial inner...
10.
Dhawan A, Barberis A, Cheng W, Domingo E, West C, Maughan T, et al.
Nat Protoc
. 2019 Apr;
14(5):1377-1400.
PMID: 30971781
With the increased use of next-generation sequencing generating large amounts of genomic data, gene expression signatures are becoming critically important tools for the interpretation of these data, and are poised...