Alla Lisok scite author profile

We have synthesized a series of 10 new, PSMA-targeted, near-infrared imaging agents intended for use in vivo for fluorescence-guided surgery (FGS). Compounds were synthesized from the commercially available amine-reactive active NHS ester of DyLight800. We altered the linker between the PSMA-targeting urea moiety and the fluorophore with a view to improve the pharmacokinetics. Chemical yields for the conjugates ranged from 51% to 86%. The Ki values ranged from 0.10 to 2.19 nM. Inclusion of an N-bromobenzyl substituent at the ε-amino group of lysine enhanced PSMA+ PIP tumor uptake, as did hydrophilic substituents within the linker. The presence of a polyethylene glycol chain within the linker markedly decreased renal uptake. In particular, DyLight800-10 demonstrated high specific uptake relative to background signal within kidney, confirmed by immunohistochemistry. These compounds may be useful for FGS in prostate, renal or other PSMA-expressing cancers.

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Correction to: Hetero-bivalent agents targeting FAP and PSMA

Srikanth

Lisok

Lofland

et al. 2022

Eur J Nucl Med Mol Imaging

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Abstract B024: Combined inhibition of farnesyltransferase and MEK is effective in fusion-negative HRAS-mutant rhabdomyosarcoma

Odeniyide

Lisok

Fertig

et al. 2023

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Rhabdomyosarcoma (RMS) is the most common soft-tissue sarcoma of childhood, and RAS pathway mutations are the known driver mutations in the majority of fusion-negative (FN) RMS. Studies have demonstrated that HRAS mutations are enriched in infants with FN-RMS and can be associated with inferior outcomes. Using HRAS-mutant RMS models, we have demonstrated that tipifarnib (farnesyl transferase inhibitor, FTI) decreases ERK signaling and decreases in vitro and in vivo tumor growth. The effects of tipifarnib can be incomplete, and limitations may be due to adaptive or acquired resistance, or the presence of concurrent mutations that limit the response to single agents. These features suggest that HRAS-mutated FN-RMS may be sensitive to inhibition with combination therapy that prevents or delays the emergence of resistance. We examined the transcriptional effects of tipifarnib in FN-RMS cell lines using bulk RNA-sequencing to identify therapeutic vulnerabilities that may be exploited by RAS-directed therapies. Analysis of RNA sequencing data revealed downregulation of ERK transcriptional output genes upon treatment with tipifarnib, confirming the role of the MEK-ERK pathway in mediating the response to FTI. Trametinib (MEKi) inhibits tumor growth in xenograft models of FN-RMS but has only modest activity as a single agent. The efficacy of inhibition with FTI and MEKi has not been previously explored in RAS-driven FN-RMS. We therefore tested tipifarnib in combination with trametinib in HRAS-mutant FN-RMS cell lines and utilized in vitro assays to evaluate the effects of the combination on cell growth, differentiation and signaling via RAS effector pathways. In HRAS-mutant cells, we observed additive dose-dependent 2D and 3D growth inhibition in response to the combination. Further, tipifarnib and trametinib more potently reduced ERK phosphorylation than either drug individually, indicating effective RAS pathway inhibition. Additionally, we found that the combination of tipifarnib and trametinib induced myosin heavy chain expression, suggesting both inhibition of proliferation and promotion of myogenic differentiation. In an in vivo model, the combination of tipifarnib and trametinib led to tumor regression which was not seen with either drug alone. Our data suggest that the combination of tipifarnib and trametinib is active in models of HRAS-driven FN-RMS and may represent an effective therapeutic strategy for a genomically-defined subset of patients with FN-RMS. Citation Format: Patience Odeniyide, Alla Lisok, Elana J. Fertig, Alyza Skaist, Christine A. Pratilas. Combined inhibition of farnesyltransferase and MEK is effective in fusion-negative HRAS-mutant rhabdomyosarcoma [abstract]. In: Proceedings of the AACR Special Conference: Targeting RAS; 2023 Mar 5-8; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Res 2023;21(5_Suppl):Abstract nr B024.

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Alla Lisok

Hetero-bivalent agents targeting FAP and PSMA

A Series of PSMA-Targeted Near-Infrared Fluorescent Imaging Agents

Correction to: Hetero-bivalent agents targeting FAP and PSMA

Abstract B024: Combined inhibition of farnesyltransferase and MEK is effective in fusion-negative HRAS-mutant rhabdomyosarcoma

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