U2AF1 S34F

Interestingly, HBEC3kts harboring only U2AF1 S34F display increased splicing in stress granule protein genes and viability in cigarette smoke concentrate. Our results suggest that U2AF1 S34F may potentiate transformation by granting precancerous cells survival advantage in environmental stress, permitting accumulation of additional mutations like KRAS G12V , which synergize with U2AF1 S34F to transform the cell.

A pharmacologic inhibitor of ISR, ISRIB, sensitized U2AF1 mutant cells to chemotherapy. These findings highlight a resistance mechanism by which U2AF1 mutations drive chemoresistance and provide a therapeutic approach for AML through targeting the ISR pathway.

Although U2AF1 gene abnormality is known as a poor prognostic factor in primary myelofibrosis, this patient had a favorable long-term prognosis due to prompt transplantation therapy. This case highlights the importance of detailed gene mutation analysis in patients with triple-negative MF.

In conclusion, a germline predisposition to myeloid neoplasms occurred in ~16% of young-onset MDS patients and was largely associated with primary immunodeficiencies, including GATA2 deficiency. Furthermore, the high frequency of somatic U2AF1 mutations in patients with young-onset MDS suggests the presence of a distinct MDS subtype.

To allow direct comparison of isogenic cells with or without U2AF1S34F expression, half the mice were treated with doxycycline to induce U2AF1S34F expression, and half of the mice did not receive doxycycline...Validation of these findings using primary mouse AML cells is ongoing, including the analysis of key regulators and protein biomarkers of the UPR pathway. The vulnerability of primary hematopoietic cancer cells with spliceosome mutations to NMD inhibition suggests the possibility for therapeutic targeting of NMD to treat myeloid malignancies with aberrant splicing.

In summary, SF-1-8 caused disruption of extra- and intracellular protein transport in K562-U2AF1S34F cells and represented a new class of small-molecule inhibitors to target U2AF1-UHM. Further optimization of this class of compounds will allow us to develop effective chemical probes for study in the U2af1 murine models and assess the potential of U2AF1 as a therapeutic target in MDS and sAML.

OS was favorably affected by allogeneic hematopoietic stem cell transplantation (HR: 0.16, 95% CI; 0.04-0.61, P = 0.007). The current study defines the prevalence and co-mutational profiles of U2AF1 pathogenic variants in AML, MDS/AML, MDS, and CCUS, and suggests prognostic heterogeneity in patients with ≥10% blasts.

Studies in human neutrophils suggest that this effect of U2AF1-S34F likely extends to MDS patients as well. RNA-seq analysis suggests that the expression of multiple genes that mediate cell migration are affected by this spliceosome mutation and therefore are likely drivers of this neutrophil dysfunction.

Finally, we reveal that isoforms likely targeted by nonsense-mediated decay are down-regulated in U2AF1 S34F cells, suggesting that isoform changes may alter the translational output of those affected genes. Altogether, our work provides a resource of full-length isoforms associated with U2AF1 S34F in lung cells.

The co-occurring U2AF1 p.S34F and TP53 p.Y220C mutations might contribute to the development of MDS. Our study expands the mutational spectrum of RECQL4 and provides underlying molecular mechanism for the development of MDS in RTS patients.

Second, murine Srsf2P95H leukemias showed improved prolonged survival when treated with olaparib (PARPi) compared to vehicle treatment in vivo...In summary, our data establish a previously unknown link between R-loop-induced PARP1 response and RNA splicing perturbation and provide a mechanistic rationale to evaluate the clinical efficacy of PARP inhibitors in spliceosome-mutant malignancies. Furthermore, our study highlights a new therapeutic potential of targeting the R-loop tolerance pathways caused by different spliceosome gene mutations.

In this study, we have demonstrated that U2AF1 gene with S34F hotspot have better OS, while Q157R had significantly inferior OS in pts with MDS/AML. Contrary to earlier reports we did not observe significant survival difference in MDS/AML patients with VAF cutoff of 40%.

SRSF2P95H and SF3B1K700E cells showed increased sensitivity to olaparib and rucaparib (Fig. In summary, this study provides a pre-clinical rationale for therapeutic targeting of PARP1 in SF-mutant leukemia. Moreover, PARP and ATR inhibitor combination could emerge as a new therapeutic strategy in this genetically distinct disease subtype.

Moreover, A549 cells expressing U2AF1-S34F, but not U2AF1-WT, were highly sensitive to treatment even with low dose of RAD51 inhibitor upon ATRi-induced DNA damage. Together, our results suggest that U2AF1-S34F causes mis-splicing of DNA damage repair factors in lung cancer and sensitizes cells to RAD51 inhibition.

Integrating RNA binding, splicing, and turnover data, we predicted that U2AF1 mutations directly affect stress granule components, which was corroborated by single-cell RNA-seq. Remarkably, U2AF1-mutant cell lines and patient-derived MDS/AML blasts displayed a heightened stress granule response, pointing to a novel role for biomolecular condensates in adaptive oncogenic strategies.

Efficacy studies in patient-derived xenograft (PDX) models, as well as genomic profiling of spliceosome-mutant cellular models in response to PRT543 are ongoing. PRT543 is currently under evaluation in a Phase I clinical trial in patients with advanced solid tumors and hematological malignancies (NCT03886831).