Breast Cancer Clinical Trial
Official title:
ME-344 in Early HER2-negative Breast Cancer With Antiangiogenic-induced Mitochondrial Metabolism: a Phase 0 Trial
Prospective, randomized, open label, two arms,, phase 0 clinical trial. HER2-negative breast
cancer patients recently diagnosed will be screened for trial participation.
A biopsy will be scheduled the week prior to or the same day as the FDG PET.
Paraffin-embedded tumor samples will be used to evaluate the stainings of Ki67, cleaved
caspase-3 and microvessels, and frozen tumor samples will be used to evaluate SDH staining.
The FDG-PET will be followed by the bevacizumab dose (15 mg/kg IV, single dose). After one
week, the PET will be repeated in order to detect the patients that have experienced FDG
uptake decay.
Right after, treatment with ME-344 (arm 1) or no treatment (arm 2) will start. ME-344 will be
administered at 10 mg/kg on day 8, 15 and 22. Surgery will be performed on day 28 (thus, 4
weeks after the bevacizumab dose, which is considered a safe window for antiangiogenics).
Fragments of the surgical specimen will be collected. Paraffin-embedded tumor sample will be
used to repeat (and compare) the stainings of Ki67, cleaved caspase-3 and microvessels, and
frozen tumor sample will be used to repeat (and compare) SDH staining.
Patients will come off trial in case of consent withdrawal, unequivocal disease progression
is observed, unacceptable toxicity occurs, or in case of intercurrent disease or any other
condition deemed incompatible with continuation in the clinical trial by the investigator.
Antiangiogenic agents are the most widely used biologic agents in oncology and are approved
by the Food and Drug Administration (FDA) for use against many different malignancies based
on the results of several randomized phase III trials. However, acquired resistance to
antiangiogenics is a major problem in cancer therapeutics.
Some signaling nodes have been implicated in therapeutic resistance in preclinical studies.
However, a global tumor-reprogramming interrogation based on changes in the delivery of
oxygen and nutrients has not been undertaken. The findings link acquired resistance to a
powerful anticancer drug class with aberrant cancer metabolism. Under selective pressure,
tumor plasticity allows sustained tumor growth in the long term despite exposure to
antiangiogenic TKIs, and it renders mitochondrial metabolism essential for survival When one
energy source (glycolysis) is pharmacologically limited, the tumors become vulnerable to the
inhibition of the other (mitochondrial metabolism). Pharmacological blockers of the
nutritional stress regulators can abrogate mitochondrial respiration and tumor growth in this
situation, which the investigators have termed "metabolic synthetic lethality".
The investigators hypothesized that in cases in which antiangiogenics lead to hypoxia
normalization, chronic high-rate glycolysis is offset and tumors might switch to an
alternative metabolic source. If this source is essential for tumor survival, it would open a
therapeutic opportunity.
The administration of ME-344 in animals where antiangiogenics have induced a mitochondrial
phenotype seems promising. The investigators aim to extend these observations in humans.
However, several questions remain, prior to launch a large trial:
- Which percentage of patients experience a mitochondrial shift when exposed to a given
antiangiogenic.
- In case this happens, whether it is possible to trace this response accurately.
- What is the benefit of adding ME-344 in those cases showing the mitochondrial shift, and
what is the benefit, if any, of adding it in the remainder cases.
For that purpose, investigators will conduct a pilot randomized phase 0 trial, where a cohort
of patients will be treated with a single bevacizumab dose prior to surgery and a second
cohort with bevacizumab plus ME-344.
The purpose of this clinical trial is to evaluate if the addition of ME-344 to antiangiogenic
agents in the cases where the mitochondrial phenotype has been induced will enhance antitumor
activity.
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