ASH1L (ASH1 Like Histone Lysine Methyltransferase)

This study characterized APPLE as a novel oncogenic microprotein encoded by lncRNA ASH1L-AS1, uncovering a non-canonical mechanism of MAPK activation in HCC. The identified E2F1-ASH1L-AS1/APPLE-ERK1/2 signaling axis provides new insights into HCC pathogenesis and represents a promising target for precision therapy, though further validation in clinical cohorts and preclinical studies is needed.

This study elucidates the prognostic and immunological significance of HAMRPs and highlights ASH1L as a novel aggressive marker in osteosarcoma.

Our study demonstrates epigenetic alterations in cancer cells reprogram metabolism and features of myeloid components, facilitating metastatic outgrowth. It establishes ASH1L as an epigenetic driver priming metastasis and macrophage plasticity in the bone niche, providing a bona fide therapeutic target in metastatic malignancies.

We show that ASH1L is involved in embryonic stem cell differentiation and co-localizes with H3K4me3 but not with H3K36me2 at transcription start sites of target genes and genome wide, and that the interaction of ASH1LPHD with H3K4me3 is inhibitory to the H3K36me2-specific catalytic activity of ASH1L. Our findings shed light on the mechanistic details by which the C-terminal domains of ASH1L associate with chromatin and regulate the enzymatic function of ASH1L.

Loss function of microRNA-142-3p induces cancer progression and immune evasion through upregulation of ASH1L in HCC. Both microRNA-142-3p and ASH1L can feature as new biomarker for HCC in the future.

Furthermore, 66s effectively blocked cell proliferation and induced apoptosis and differentiation in leukemia cells harboring MLL1 translocations. Overall, this work provides a high-quality chemical probe targeting the catalytic SET domain of ASH1L with increased inhibitory activity and cellular efficacy to study biological functions of ASH1L and potentially to develop novel anticancer therapeutics.

Of pathophysiological significance, the increased expression levels of mesenchymal ASH1L and M2 marker CD68 are associated with poor prognosis of HCC. The findings reveal ASH1L as a potential small-molecule therapeutic target against fibrosis-related HCC.

Additionally, the review discusses the impact of the thioamide moiety on key properties, including potency, target interactions, physicochemical characteristics, and pharmacokinetics profiles. We hope that this work will offer valuable insights to inspire the future development of novel bioactive thioamide-containing compounds, facilitating their effective use in combating a wide array of human diseases.

W2603A mutation was crucial for the interaction between the PHD-BAH domain and the H3K4me2 peptide. ASH1L regulated CHOL cell survival and proliferation through its PHD-BAH domain by modulating the expression of the PSMB family gene set.

ASH1L reduces CPD formation at C-containing but not at TT dinucleotides, and no protection occurs against pyrimidine-(6,4)-pyrimidone photoproducts or cisplatin crosslinks...Molecular dynamics simulations identified a DNA-binding AT hook of ASH1L that alters the distance and dihedral angle between neighboring C nucleotides to disfavor dimerization. The loss of this protection results in a higher frequency of C->T transitions at enhancers of skin cancers carrying ASH1L mutations compared to ASH1L-intact counterparts.

However, GSK-J4 makes an exception by displaying an in different mode of interaction with miltefosine. Collectively, our in silico and in vitro studies acted as a platform to identify the applicability of these inhibitors targeted against KDM6B and ASH1L for anti-leishmanial therapy.

Taken together, our data demonstrated that the ASH1L-AS1-ASH1L regulatory axis controls histone modification reprogram and activation of the RAS signaling in cancers. Thus, ASH1L-AS1 might be a novel targets of GC therapeutics and diagnosis in the clinic.