Head and Neck Cancer Clinical Trial
Official title:
The CONFRONT Phase I - II Trial: ACtivatiON oF Immune RespONse in paTients With R-M Head and Neck Cancer. Multimodality Immunotherapy With Avelumab, Short Course Radiotherapy and Cyclophosphamide in Head and Neck Cancer.
Phase I - II trial of the combination of cyclophosphamide, RT, and Avelumab in
relapsed/metastatic HNSCC (R/M-HNC). Patients pretreated with at least one line therapy
containing platinum, fluorouracil, and Cetuximab. Treatment consists of metronomic
cyclophosphamide 50 mg daily without drug free break, avelumab 10 mg/kg d1 and 15 q 29, and
radiotherapy in one or three daily fractions up to 8 Gy maximum dose, starting at day 8. The
aim of the study is to reverse tumor immune-escape by:
1. Provide a self-vaccination with radiotherapy
2. Inhibit the immunosuppressive CD4+ CD25+ FoxP3+ Treg cells with metronomic
cyclophosphamide
3. Reactivate the effector T cell by the inhibition of PD-1 - PD-L1 axis with avelumab.
Due to the supposed biological effects of the present trial, an ancillary translational study
is needed and will be extended to all the patients' population enrolled.
Rational of the trial
A phase I - II trial in RM-HNC based on pharmacologic and physic interventions related to
each other facing immunology as a system rather than a single pathway, theoretically able to
restore immune competence toward the tumor. The immune suppressive mechanisms that could be
affected by this study and how the experimental approach could inhibit them, are listed
below:
- PD-1 - PD-L1 axis is widespread among immune cell family including CTL, Treg, NK, NKT,
APC and others showing, for example, opposite effect in CD8+ CTL (inhibitory signal) or
in CD4+ CD25+ Foxp3+ (activating signal).
- Depletion of Treg results in tumor regression, in experimental models. The effect seems
to be dependent on the extent of Treg suppression.
- Avelumab is a fully human anti-PD-L1 IgG1 monoclonal antibody. It enables the activation
of T-cells and the adaptive immune system by inhibiting PD-1 - PD-L1 axis, induces
antibody-dependent cell-mediated cytotoxicity (ADCC) and engages the innate immune
system.
- Low dose cyclophosphamide (metronomic cyclophosphamide), selectively reduce Treg
population both in experimental models and in humans, but it does not affect effector T
cells
- PD-1 - PD-L1 axis enhances and sustains Foxp3 expression and the suppressive function of
inducible Tregs (iTrge)7. The blockade of the PD1 - PDL1 axis by Avelumab may have an
opposite effect.
- The contemporary use of two, independent, mechanisms of Treg control (Avelumab
inhibiting Treg clonal expansion and functions, and cyclophosphamide reducing Treg
population) may result in a profound inhibition of Treg population.
- If the suppressive mechanisms of the immune system are weakened, the release of high
quantity of tumor specific antigens or stress related antigens (epcam, HSPs, HMBG-1,
Calreticulin, ATP), obtained by the induction of immunogenic cell death may induce a
sort of "self vaccination" resulting into an effective immune response.
- Radiation may induce immunogenic cell death even in heavily pretreated patients in whom
the use of cytotoxic chemotherapy may not, due to the previous exposure to drugs and the
development of resistance mechanisms. More precisely, this effect is considered the
basis of the Abscopal effect, i.e. the regression of tumor deposits outside the
irradiated field. This effect is more frequently observed with low-dose, non ablative,
hypofractionated radiation therapy (described at point 2.3.2) and represent a proof of
concept that in particular situations, radiotherapy act as an inducer of "self
vaccination".
- IgG1 mAbs, such as Avelumab, triggers ADCC; PD-L1 is widely express in many tumors and
so ADCC may represent an additional mechanism of tumor control.
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