A new study published in the journal Science Translational Medicine describes a genetic change common to 80 percent of human melanomas, the most deadly form of skin cancer, and also describes a molecule that seeks out cells marked by this genetic change. The current study attaches a radioactive label to the targeting molecule and uses positron emission tomography (PET) imaging to show that the radiolabeled molecule does, in fact, seek out and bind to melanoma cells. Using a similar approach, it may be possible to not only image these cells, but to attach therapy to this targeting molecule to kill these melanoma cells.
The work starts with a protein called melanocortin-1 receptor (MC1R), which is involved in determining skin and hair color, but which is also found at a higher level on the surface of more than 80 percent of human melanomas. The current study describes a "peptide" that specifically binds to MC1R. If MC1R is a lock, then the peptide 68Ga-DOTA-GGNle-CycMSHhex is the key that fits it. In this case, researchers attached an imaging radionuclide to this peptide - the combination of peptide and radionuclide found, bound, and "lit up" melanoma metastases, allowing researchers to image these melanoma cells.
The success of this molecular targeting approach suggests the possibility of using the peptide as a delivery vehicle to transport a therapeutic radionuclide directly to melanoma cells marked with MC1Rs for therapy.
"Basically, we attach the imaging radionuclide to the peptide, then the radiolabeled peptide finds MC1Rs on the melanoma through blood circulation, allowing us to use a PET machine to gather the signals from the radiolabeled peptide for melanoma imaging. It's a very sensitive way to see melanoma," says the senior author.
In addition, researchers were able to replace the radiolabel with a fluorescent one to generate a new MC1R-targeting fluorescence imaging probe (called Cy5.5-GGNle-CycMSHhex). The current study shows that the fluorescent probe binds and stains MC1Rs on melanoma cells and lesions. The author sees that the combination of these two approaches - one radiolabeled and one fluorescent - may potentially improve surgical outcomes for melanoma via imaging-guided surgery.
"Approximately 60 percent of patients with metastatic melanoma develop brain metastases during the course of their disease. Patients with brain metastases have much shorter life expectancies than patients without brain metastases. Our study shows that the MC1R continues to mark melanoma cells even after these cells metastasize from the site of origin to brain, and this peptide can bind to MC1Rs in melanoma brain metastases. One potential application for this technology is to use our imaging systems to identify MC1R-postive melanoma tumors and then treat these lesions with therapies delivered by this peptide," the senior author says.
For now, the current study demonstrates the first-in-human ability to image melanoma metastases using the group's radiolabeled peptide.
https://coloradocancerblogs.org/targeting-mc1r-in-metastatic-melanoma/
http://stm.sciencemag.org/content/10/466/eaau4445
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