Our translational research study aimed to address the medical need to identify a robust non-invasive marker able to select patients with particular profit from a sequential anti-HER2 chemotherapy treatment strategy. An approach which, according to our results of the randomized Phase III trial SAKK22/99, might help deferring chemotherapy and its toxicity fitting in a de-escalating intention in the treatment of HER2-positive disease.[17].
Our results indeed indicate that patients with low baseline HER2ECD levels may profit of single-agent trastuzumab, while no difference between arms is observed when the baseline HER2ECD levels are higher (Figure 2C/D). Moreover, since the HER2ECD levels under trastuzumab monotherapy remain fairly constant over time and start increasing only shortly before disease progression, monitoring HER2ECD levels may help identifying the optimal moment for introducing chemotherapy.
To our best knowledge, this is the first study investigating plasma HER2ECD or any other blood marker, including circulating tumor cells (CTCs) or free DNA, to address specifically the optimal time point for the introduction of chemotherapy after anti-HER2 monotherapy in HER2+ metastatic BC.
Several studies have investigated the value of serum HER2ECD in patients with BC. Our results are in line with a recent review summarizing 27 studies (10 in metastatic BC, 13 in early BC and 4 in patients with early or metastatic BC) [19]. Even though there are discrepancies between studies, including the definition of the optimal threshold, the majority suggest that serum HER2ECD might be particularly useful in metastatic BC as an indicator of cancer progression and predictor for anti-HER2 therapies efficacy.
The mechanistic reasons why higher levels of HER2ECD could correlate with poorer prognosis and with less anti-HER2 therapeutic effectiveness are several. First of all, the truncated form that remains in the cancer cell membrane and cytoplasm after cleavage of the “shedding” ECD has a higher rate of constitutive tyrosine kinase activity and is therefore more oncogenic than the intact HER2 [20]. Second, HER2 is truncated and released into blood circulation by a proteolytic mechanism, which has been attributed to various zinc-containing metalloproteases including members of the matrix metalloproteinase and the ADAM family [21]. Subsequently, the presence of free HER2ECD is also an indicator of presence in the cancer cells of proteins degrading the extracellular matrix and known per se as markers of invasiveness and aggressiveness. Third, if the external domain is missing the anti-HER2 therapy might bind the free HER2ECD instead of the HER2 external domain lacking the targeted receptor blockage [19].
These mechanistic models along with our longitudinal monitoring of plasma HER2ECD in the two treatment arms help explaining our findings. Indeed, we observed longer TTP for patients with plasma HER2ECD below 15ng/ml only when treated with sequential treatment. Trastuzumab alone in these patients binds to the full-length HER2 domain and is effective. In this situation, there is no interaction between the free HER2ECD and trastuzumab and the free HER2ECD levels remain constant until the cancer progresses. At this point, the HER2ECD levels increase and sequential HER2ECD monitoring would allow identifying the exact moment for chemotherapy administration. According to protocol plasma collection timelines (baseline, after 3 weeks, at first response evaluation (8-9 weeks) and at PD) it was not possible to know how long before PD the HER2ECD levels started to raise. Prospective studies should integrate monthly detections in order to estimate the possible anticipation of chemotherapy administration.
In contrast, we observed that HER2ECD levels in patients treated with upfront TChemo, as reported in several other studies [22], continuously diminished, up to <20% of the baseline level, when chemotherapy is effective. Consequently, patients with high levels of free ECD should be treated with upfront combination therapy.
Another recent meta-analysis based on 15 prospective and 8 retrospective studies, investigating the prognostic value of HER2ECD with the FDA approved threshold of 15ng/ml, concluded that higher levels are correlated with poorer OS with a hazard ratio (HR) of 2.3 (CI:2.0-2.6) [23]. Our results are very much in line with this meta-analysis despite our threshold, with respect to OS for patients treated with upfront TChemo, had to be set at a higher level (35ng/ml).
One possible explanation for our higher threshold and overall expression values of the plasma HER2ECD could be that the plasma test also detects the extracellular domain of HER2 present on CTCs. If this hypothesis is correct, plasma HER2ECD could be more sensitive and representative of the aggressiveness of the disease and subsequently more clinically useful than the serum test, indicating the concomitant presence of cleaving proteases and CTCs facilitating metastatic processes.
Further, in this translational study, we confirmed that monitoring of HER2ECD values represent a clinically relevant complementary assessment in order to compensate inter-laboratory and inter-observer discrepancies in HER2 overexpression, particularly when detected in small biopsies of metastatic disease or in very old tissue specimens.
Another relevant finding is the high correlation of plasma levels at baseline and within 24 hours after trastuzumab infusion in both arms. This observation is clinically important since it supplies evidence for avoiding unnecessary double blood assessments and suggests that trastuzumab does not bind immediately to the free soluble HER2ECD.
This study was well conceived at time of trial start almost twenty years ago. Unfortunately, the trial recruited too slowly and did not achieve the planned number of patients. Therefore, the overall analysis is underpowered and the current treatment of choice pertuzumab/trastuzumab is investigated in a more recent study (SAKK22/10).