Biomedical Translational Research Drug Design and Discovery (R.C. Sobti, Naranjan S. Dhalla)

However, till 2010, there was no deﬁned approach to combat EGFR resistance.

Therefore, steady and extended efforts were being undertaken for designing and

developing more potent and selective EGFR inhibitors. X Wu et al. designed and

synthesized two series of 4-benzothienyl amino quinazoline derivatives as new

analogues of geﬁtinib in 2010. A series of compounds were synthesized and

evaluated in comparison to parental geﬁtinib and the compounds with higher

selectivity and enhanced anti-EGFR activities were selected. The selected

compounds were compound 1 and compound 2 and are given in Table 21.1

(Wu et al. 2010; Ravez et al. 2015). Different series of quinazoline-based

compounds were designed using geﬁtinib as a reference. In the designed series,

benzene ring was substituted with a pyrrole ring. Taking geﬁtinib as a standard, the

synthesized compounds were evaluated for kinase inhibitory and antitumour

activities. Among a series of compounds, ﬁve compounds were signiﬁcantly potent.

These ﬁve compounds are given in Table 21.1 as compounds 3–7. The structure-

activity analysis proposed that the anticancer activity of the compounds was raised

by replacing benzene ring attached to the 4-anilo nitrogen. Also, the anticancer

potential of the compounds was increased when position 6 or 7 was substituted or

branched with basic side chain (Ahmad 2017; Bhatia et al. 2020).

A novel series of quinazoline-based compounds was designed by X Qin et al. in

2016. The morpholin-3-one-fused quinazolines were synthesized by intramolecular

cyclization, and their anti-EGFR potential was evaluated. A compound with a tert-

butyl substituent on the lateral phenyl ring, a dimethoxyquinazolinyl moiety at

positions 6 and 7 and a benzylamino linker at position 3 showed the maximum

activity. Additionally, in silico studies revealed that the compound also had efﬁcient

binding with the c-Raf (active site). The structural details of the compound are given

in Table 21.1 as compound 8 (Palumbo et al. 2016).

21.3

FDA-Approved Quinazoline-Based EGFR Inhibitors

21.3.1 Gefitinib

Geﬁtinib is a quinazoline-based small molecule EGFR inhibitor. It was approved by

the FDA in 2003 for the treatment of NSCLC. It was the ﬁrst FDA-approved

quinazoline-based EGFR inhibitor. Geﬁtinib acts by binding to the active conforma-

tion of EGFR. The chemical structure of the drug is given in Fig. 21.2. Geﬁtinib is

administered through oral route and is absorbed with a mean bioavailability of 60%.

The volume of distribution of the drug is very high (1400:1) and thus is distributed

through the body tissues such as the kidney, liver, lungs and tumours. The drug

reaches to its peak level from 3 to 7 h with a mean elimination half-life of 48 h. After

getting absorbed in the blood, 90% of the drug binds to the serum albumin and α1-

acid glycoproteins. CYP3A4 is involved in the hepatic metabolism of the drug. This

enzyme biotransforms the drug by demethylating the methoxy substituent,

metabolizing the N-propoxymorpholino group and by oxidative deﬂuorination of

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V. Panwar et al.