Table 2.
Mechanisms of resistance occurring in erbB2-tageting agents[107]
| Type | Agent | Target | Mechanisms of resistance | Factors involved |
| Monoclonal antibodies | Trastuzumab | erbB2 | Alterations in tyrosine kinase domain; overexpression of alternative erbB isoforms and dimerization receptors; loss of downstream checkpoints; dimerization and interaction with other receptors | p95HER2, MUC4 EGFR, erbB ligands (TGFα, EGF, HB), PTEN IGF1R, MET |
| Pertuzumab | erbB2 | |||
| T-DM1 | erbB2 | |||
| Tyrosine kinase inhibitors | Lapatinib | erbB1, erbB2 | Alterations in tyrosine kinase domain; acquisition of HER2 mutations; activation of further downstream signaling pathways | KIT and PDGFRA receptor signaling pathway; PI3K-AKT, mTOR |
| Neratinib | erbB2, erbB4 | |||
| Afatinib | erbB1, erbB2, erbB4 | |||
| Canertinib | erbB1, erbB2, erbB4 | |||
| Inhibitors of the downstream targets | Everolimus | mTOR | Activation of further downstream signaling pathways | PI3K-AKT, mTOR, MEK, MAPK |
| BKM120 | PI3K/AKT | |||
| BEZ-235 | PI3K/AKT/mTOR | |||
| GS-1101 | PI3K | |||
| NVP-BKM120 | PI3K | |||
| GDC-0941 | PI3K | |||
| GSK458 | PI3K/mTOR | |||
| GDC-0980 | PI3K/mTOR | |||
| PI-103 | PI3K/mTOR | |||
| hsp90 inhibitors | Tanespimycin | hsp90 | Up-regulation of alternative pathways | NF-κB, MAPK |
| Retaspimycin | hsp90 | |||
| AUY922 | hsp90 |