Physicians may soon have a new way to measure the efficacy or failure of hormone therapy for breast cancer patients, according to a study published in The Journal of Nuclear Medicine.
Researchers report that positron emission tomography (PET) imaging with 18F-fluorofuranylnorprogesterone (18F-FFNP) has been found to successfully measure changes in progesterone receptor (PR) levels resulting from a short-course oestrogen treatment, also known as an oestradiol challenge.
Estrogen-receptor (ER)-positive breast cancer is the most common class of breast cancer, that affects nearly 70 percent of patients.
By participating in an oestradiol challenge, physicians can determine the likelihood of the potential benefit of hormonal therapies targeting ER for individual patients.
Many hormone therapies interfere with the ability of estrogen to regulate the expression of PR protein, which is more pronounced in the presence of oestrogen.
As such, several PET tracers have been developed to monitor and analyse changes in the PR level during therapy.
"Typically, anatomic size and proliferation biomarkers are analyzed to determine endocrine sensitivity," said Amy M. Fowler, MD, PhD, assistant professor, Section of Breast Imaging, Department of Radiology, University of Wisconsin-Madison. "However, non-invasive detection of changes in PR expression with 18F-FFNP during an oestradiol challenge may be an earlier indicator of the effectiveness of a specific hormone therapy."
In this study, T47D human breast cancer cells (cells with estrogen and progesterone receptors, but without human epidermal growth factor receptor-2) and mice bearing T47D tumour xenografts were treated with estrogen to increase PR expression.
The cells and mice were imaged with 18F-FFNP and assays were conducted for cell uptake and tissue biodistribution.
To investigate the separate role of PR-A and PR-B isoforms on overall 18F-FFNP binding, triple-negative MDA-MB-231 breast cancer cells were engineered to express either PR-A or PR-B.
In vitro 18F-FFNP binding was measured by saturation and competitive binding assays, while in vivo uptake was measured with PET imaging.
In T47D cells treated with estrogen, an increase in 18F-FFNP uptake was measured at 48 hours after treatment.
In mice with T47D tumour xenografts, increased uptake was seen at 48 and 72 hours after treatment.
This increase in 18F-FFNP uptake also correlated with an increase in PR protein expression and proliferation.
Results showed that there was no significant preferential 18F-FFNP binding or uptake by PR-A versus PR-B in PR isoform cell lines or tumour xenografts.
"This is an important finding given the variability of PR isoform expression observed in breast cancer patients," stated Fowler.
She continued, "Validation of PR imaging as a biomarker of endocrine sensitivity in patients before and after oestradiol challenge could provide new opportunities in the field of molecular imaging and nuclear medicine for breast cancer imaging. Improved methods for testing endocrine sensitivity in patients could better inform decisions for optimal individualised ER-positive breast cancer therapy, potentially reducing morbidity and mortality."
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