Because of their increased activity against activating mutants, first-generation epidermal growth factor receptor (EGFR) kinase inhibitors have had remarkable success in treating non-small-cell lung cancer (NSCLC) patients, but acquired resistance, through a secondary mutation of the gatekeeper residue, means that clinical responses only last for 8-14 months. Addressing this unmet medical need requires agents that can target both of the most common double mutants: T790M/L858R (TMLR) and T790M/del(746-750) (TMdel). Herein we describe how a noncovalent double mutant selective lead compound was optimized using a strategy focused on the structure-guided increase in potency without added lipophilicity or reduction of three-dimensional character. Following successive rounds of design and synthesis it was discovered that cis-fluoro substitution on 4-hydroxy- and 4-methoxypiperidinyl groups provided synergistic, substantial, and specific potency gain through direct interaction with the enzyme and/or effects on the proximal ligand oxygen atom. Further development of the fluorohydroxypiperidine series resulted in the identification of a pair of diastereomers that showed 50-fold enzyme and cell based selectivity for T790M mutants over wild-type EGFR (wtEGFR) in vitro and pathway knock-down in an in vivo xenograft model.
Activating
mutations within the epidermal growth factor receptor
(EGFR) kinase domain, commonly L858R or deletions within exon 19,
increase EGFR-driven cell proliferation and survival and are correlated
with impressive responses to the EGFR inhibitors erlotinib and gefitinib
in nonsmall cell lung cancer patients. Approximately 60% of acquired
resistance to these agents is driven by a single secondary mutation
within the EGFR kinase domain, specifically substitution of the gatekeeper
residue threonine-790 with methionine (T790M). Due to dose-limiting
toxicities associated with inhibition of wild-type EGFR (wtEGFR),
we sought inhibitors of T790M-containing EGFR mutants with selectivity
over wtEGFR. We describe the evolution of HTS hits derived from Jak2/Tyk2
inhibitors into selective EGFR inhibitors. X-ray crystal structures
revealed two distinct binding modes and enabled the design of a selective
series of novel diaminopyrimidine-based inhibitors with good potency
against T790M-containing mutants of EGFR, high selectivity over wtEGFR,
broad kinase selectivity, and desirable physicochemical properties.
This article examines the nature and extent of depressive disorders in highly gifted adolescents based on current literature and data gathered from a phenomenological study, focus groups, and clinical records. Two case studies and clinical examples document the capacity of some highly gifted adolescents to mask even severe symptoms. Several factors appeared to contribute to this masking phenomenon, including shame for being incapacitated and unable to resolve their dilemma; depression's signature cognitive confusion, which disengaged their coping mechanisms; and fear of harming others with their toxic state. These findings raise questions about the efficacy of quantitative research instruments to determine actual cases of depressive disorder in this subgroup, as well as current research estimates of depression in the highly gifted population.
Inhibitors of the class I phosphoinositide 3-kinase (PI3K) isoform PI3Kα have received substantial attention for their potential use in cancer therapy. Despite the particular attraction of targeting PI3Kα, achieving selectivity for the inhibition of this isoform has proved challenging. Herein we report the discovery of inhibitors of PI3Kα that have selectivity over the other class I isoforms and all other kinases tested. In GDC-0032 (3, taselisib), we previously minimized inhibition of PI3Kβ relative to the other class I insoforms. Subsequently, we extended our efforts to identify PI3Kα-specific inhibitors using PI3Kα crystal structures to inform the design of benzoxazepin inhibitors with selectivity for PI3Kα through interactions with a nonconserved residue. Several molecules selective for PI3Kα relative to the other class I isoforms, as well as other kinases, were identified. Optimization of properties related to drug metabolism then culminated in the identification of the clinical candidate GDC-0326 (4).
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