Shuang Xiang scite author profile

The Rad17-replication factor C (Rad17-RFC) and Rad9-Rad1-Hus1 complexes are thought to function in the early phase of cell-cycle checkpoint control as sensors for genome damage and genome replication errors. However, genetic analysis of the functions of these complexes in vertebrates is complicated by the lethality of these gene disruptions in embryonic mouse cells. We disrupted the Rad17 and Rad9 loci by gene targeting in the chicken B lymphocyte line DT40. Rad17

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Targeting Gatekeeper Mutations for Kinase Drug Discovery

Zhou

Xiang

Yang

et al. 2022

J. Med. Chem.

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Clinically acquired resistance is a major challenge in cancer therapies with small-molecule kinase inhibitors (SMKIs). Gatekeeper mutations in the ATP-binding pocket of kinases are the most common mutations leading to acquired resistance. To date, seven new-generation kinase inhibitors targeting gatekeeper mutations have been approved by the FDA; however, the clinical need is still unmet. Here, we systematically summarize the types of gatekeeper mutations across the kinase family, the structural basis for acquired resistance, and newly developed SMKIs targeting gatekeeper mutations as well as highlight the opportunities and challenges of kinase drug discovery for targeting gatekeeper mutations.

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The J Domain of Tpr2 Regulates Its Interaction with the Proapoptotic and Cell-Cycle Checkpoint Protein, Rad9

Xiang

Kumano

Iwasaki

et al. 2001

Biochemical and Biophysical Research Communications

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Human Rad9 is a key cell-cycle checkpoint protein that is postulated to function in the early phase of cell-cycle checkpoint control through complex formation with Rad1 and Hus1. Rad9 is also thought to be involved in controlling apoptosis through its interaction with Bcl-2. To explore the biochemical functions of Rad9 in these cellular control mechanisms, we performed two-hybrid screening and identified Tetratricopeptide repeat protein 2 (Tpr2) as a novel Rad9-binding protein. We found that Tpr2 binds not only to Rad9, but also to Rad1 and Hus1, through its N-terminal tetratricopeptide repeat region, as assessed by in vivo and in vitro binding assays. However, the in vivo and in vitro interactions of Tpr2 with Rad9 were greatly enhanced by the deletion of its C-terminal J domain or by a point mutation in the conserved HPD motif in the J domain, though the binding of Tpr2 to Rad1 and Hus1 was not influenced by these J-domain mutations. We further found: (1) Rad9 transiently dissociates from Tpr2 following heat-shock or UV treatments, but the mutation of the J domain abrogates this transient dissociation of the Tpr2/Rad9 complex; and (2) the J domain of Tpr2 modulates the cellular localization of both Tpr2 itself and Rad9. These results indicate that the J domain of Tpr2 plays a critical role in the regulation of both physical and functional interactions between Tpr2 and Rad9.

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Discovery of the First Highly Selective and Broadly Effective Macrocycle-Based Type II TRK Inhibitors that Overcome Clinically Acquired Resistance

Wang

et al. 2022

J. Med. Chem.

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Tropomyosin receptor kinase (TRK) secondary mutations mediating acquired resistance, especially at the solvent-front (SF) and the DFG motif, represent an unmet clinical need. Small-molecule macrocyclic kinase inhibitors have displayed significant advantages in overcoming clinical resistance driven by kinase mutations; however, all reported small-molecule macrocyclic TRK inhibitors are all type I inhibitors and are therefore much more sensitive to SF than xDFG mutations. Novel therapeutics for patients with xDFG resistance mutations are urgently needed. We report the first highly selective macrocycle-based potent type II TRK inhibitor, 7b, that exhibits high inhibitory potency toward various TRK fusion protein variants as well as wild type. 7b exhibited potent antiproliferative activity against Ba/F3 cells harboring CD74-TRKAG667C and ETV6-TRKCG696C with half-maximum inhibitory concentration (IC50) values of 6 and 1.7 nM, respectively. More importantly, 7b also showed potent antiproliferative activity against a panel of SF mutants (IC50 = 5.6–110 nM) and displayed extraordinary kinome selectivity.

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Shuang Xiang

Critical role for chicken Rad17 and Rad9 in the cellular response to DNA damage and stalled DNA replication

Targeting Gatekeeper Mutations for Kinase Drug Discovery

The J Domain of Tpr2 Regulates Its Interaction with the Proapoptotic and Cell-Cycle Checkpoint Protein, Rad9

Discovery of the First Highly Selective and Broadly Effective Macrocycle-Based Type II TRK Inhibitors that Overcome Clinically Acquired Resistance

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