Ujjwol Khatri scite author profile

Ujjwol Khatri

5Publications

53Citation Statements Received

79Citation Statements Given

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215

Affiliations

University of Oklahoma Health Sciences Center

Publications

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The origin of exosomal miR-1246 in human cancer cells

Hannafon

Khatri

et al. 2019

RNA Biology

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miR-1246 is considered an oncomiR in various cancer types. However, the origin and biogenesis of miR-1246 remain controversial which often leads to misinterpretation of its detection and biological function, and inevitably masking its mechanisms of action. Using next generation small RNA sequencing, CRISPR-Cas9 knockout, siRNA knockdown and the poly-A tailing SYBR qRT-PCR, we examined the biogenesis of exosomal miR-1246 in human cancer cell model systems. We found that miR-1246 is highly enriched in exosomes derived from human cancer cells and that it originates from RNU2-1, a small nuclear RNA and essential component of the U2 complex of the spliceosome. Knockdown of Drosha and Dicer did not reduce exosomal miR-1246 levels, indicating that exosomal miR-1246 is generated in a Drosha-and Dicer-independent manner. Direct digestion of cellular lysate by RNase A and knockdown of the RNU2-1 binding protein SmB/B' demonstrated that exosomal miR-1246 is a RNU2-1 degradation product. Furthermore, the GCAG motif present in the RUN2-1 transcript was shown to mediate miR-1246 enrichment in cancer exosomes. We conclude that exosome miR-1246 is derived from RNU2-1 degradation through a non-canonical microRNA biogenesis process. These findings reveal the origin of an oncomiR in human cancer cells, providing guidance in understanding miR-1246 detection and biological function.

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Targeting RET Solvent-Front Mutants with Alkynyl Nicotinamide-Based Inhibitors

Khatri

Dayal

et al. 2023

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Selpercatinib (LOXO292) and pralsetinib (BLU667) are RET protein tyrosine kinase inhibitors (TKIs) recently approved for treating RET-altered cancers. However, RET mutations that confer selpercatinib/pralsetinib resistance have been identified, necessitating development of next-generation RET TKIs. While acquired RET G810C/R/S/V mutations were reported in selpercatinib-treated patients, it was unclear whether all of these and other potential G810 mutants are resistant to selpercatinib and pralsetinib. Here, we profiled selpercatinib and pralsetinib on all six possible G810 mutants derived from single nucleotide substitution, and developed novel alkynyl nicotinamide-based RET TKIs to inhibit selpercatinib/pralsetinib-resistant RET G810 mutants. Surprisingly, the G810V mutant found in a clinical study was not resistant to selpercatinib or pralsetinib. Besides G810C/R/S, G810D also conferred selpercatinib/pralsetinib resistance. Alkynyl nicotinamide compounds such as HSN608, HSL476, and HSL468 have better drug-like properties than alkynyl benzamides. Six of these compounds inhibited all six G810 solvent-front mutants and the V804M gatekeeper mutant with IC50 < 50 nmol/L in cell culture. Oral administration of HSN608 at a well-tolerated dose (30 mg/kg) gave plasma level > 30x the IC50s of inhibiting all G810 mutants in cell culture. In cell-derived xenograft tumors driven by KIF5B-RET (G810C) that contains the most frequently observed solvent-front mutant in selpercatinib-treated patients, HSN608, HSL476, and HSL468 significantly suppressed and caused regression of the selpercatinib-resistant tumors. This study clarifies the sensitivities of different RET solvent-front mutants to selpercatinib and pralsetinib, and identifies novel alkylnyl nicotinamide-based RET TKIs for inhibiting selpercatinib/pralsetinib-resistant G810 mutants.

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Progress and challenges in RET-targeted cancer therapy

Khatri

Shen

et al. 2023

Front. Med.

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The heterogeneous transition state of resistance to RET kinase inhibitors converges on ERK1/2-driven Aurora A/B kinases

Khatri

et al. 2023

Drug Resistance Updates

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Supplementary Data from Targeting RET Solvent-Front Mutants with Alkynyl Nicotinamide-Based Inhibitors

Khatri¹,

Dayal²,

Hu³

et al. 2023

Preprint

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Ujjwol Khatri

The origin of exosomal miR-1246 in human cancer cells

Targeting RET Solvent-Front Mutants with Alkynyl Nicotinamide-Based Inhibitors

Progress and challenges in RET-targeted cancer therapy

The heterogeneous transition state of resistance to RET kinase inhibitors converges on ERK1/2-driven Aurora A/B kinases

Supplementary Data from Targeting RET Solvent-Front Mutants with Alkynyl Nicotinamide-Based Inhibitors

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