Bromodomain-Driven Regulation of Stem Cells: A Potential Target for Cancer Therapeutic Intervention
Muthuvel Jothi, Anil Kumar Devakrishnan, Krishna Kumar Haridhasapavalan

TL;DR
This paper reviews how bromodomain proteins regulate stem cells and how targeting them could lead to new cancer treatments.
Contribution
The paper provides a comprehensive overview of bromodomain proteins' roles in stem cell regulation and their potential as cancer therapeutic targets.
Findings
Bromodomain proteins regulate stem cell pluripotency and differentiation through epigenetic mechanisms.
Dysregulated bromodomain proteins contribute to cancer by promoting stem cell-like features and tumor heterogeneity.
Bromodomain inhibitors are highlighted as promising cancer therapeutics targeting cancer stem cells.
Abstract
All cells within an organism share identical genetic material, yet epigenetic mechanisms determine stem cell fate by precisely regulating transcriptional programs. Histone acetylation is a key epigenetic modification that establishes an open chromatin structure, which is recognized by proteins involved in modulating chromatin dynamics essential for stem cell functions. Bromodomain (BrD)-containing proteins specifically recognize acetylated lysines on histones and act as critical epigenetic regulators within larger protein complexes. This review comprehensively describes the BrD protein family, highlighting their structural classifications and diverse functions, and explores their critical roles in regulating stem cell pluripotency and differentiation, and their implications in cancer development. Dysregulated BrD proteins can drive cancer by increasing stem cell-like features and tumor…
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Taxonomy
TopicsProtein Degradation and Inhibitors · Chromatin Remodeling and Cancer · Histone Deacetylase Inhibitors Research
