Resistance to palbociclib FDA- and EMA-approval for palbociclib hinges upon the clinical trials’ results regarding progression-free survival (PFS). However, though data has proven promising (one study had p-values very close to the significance threshold which, with further clinical trials, may be able to demonstrate statistical significance), there is no significant improvement evident in overall survival (OS) when taking palbociclib. For example, in the PALOMA-2 trial, more than 70% of patients who were treated with palbociclib and letrozole progressed by 40 months. This has impeded the drug's worldwide acceptance as economic analyses have not found palbociclib to be cost-effective.
De novo resistance De novo resistance to palbociclib implicates a variety of targets both upstream and downstream of the CDK4/6 to Rb pathway. Overexpression of the transcription factor E2F2 is capable of promoting resistance to CDK4/6 inhibition more than just loss of Rb alone (the direct downstream target of CDK4/6). Palbociclib is less effective in patients whose breast cancer cells overexpress
cyclin E1 or
E2, and Brk (breast tumor-related kinase). Brk is an intracellular kinase that is overexpressed in 60% of breast cancers and whose amplification leads to increased phosphorylation of Y88 of the p27 protein, as well as increases the cyclin D and CDK4 activity, thereby rendering the cancer cells more resistant to palbociclib. Previously, FAT1 had been suggested to be a tumor suppressor and oncogene, though never before explicitly linked to resistance. The team found that FAT1 suppressed cells required significantly higher doses of CDK4/6 inhibitors in order to block proliferation of breast cancer cells
in vivo. Certain manifestations of endocrine therapy resistance may further sensitize the breast cancer to CDK4/6 inhibitors. For example, deficiencies in mismatch repair caused by the MutL mutation in ER+ breast cancer evades CHK2-mediated inhibition of CDK4, thereby leading to endocrine resistance. Scientists linked the initial development of resistance to an increase in expression of CDK6 (but not CDK4, the other target of palbociclib), with the specific mechanism of CDK6 upregulation originating from suppression of the
TGF-β pathway via the
miR-432-5p microRNA. Scientists made this discovery after noticing that, in the lab, all breast cancer cells in the dish were found to acquire resistance at a similar time, a phenomenon contrary to classical models of acquiring resistance in which one or two cells become resistant and then expand to encompass more of the tumor as they divide. These palbociclib-resistance cells also did not contain a particular mutation, but rather became resistant and continued to spread this resistance to neighboring cells via exosomes. While the mechanism of this resistance has not yet been elucidated, it opens an avenue for further research into a completely novel method through which cancer cells acquire resistance. On the other hand, this suggests that patients which seemingly progress on palbociclib could benefit from longer-term treatment following a treatment holiday in which their tumors are "reset". There are a variety of means through which cancer cells become resistant to palbociclib, with mechanisms of resistance involving multiple targets and processes throughout the pathway in which palbociclib operates. Previous research estimates that breast cancer cells show adaptation against palbociclib as early as 72 hours post-treatment. For example, patients who display evidence of functional Rb loss at baseline are not likely to benefit from CDK4/6 inhibition, nor are patients who display baseline evidence of increased cyclin E1 expression, or a high CCNE1/RB ratio. ==Clinical trials==