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New imaging method superior for diagnosing multiple types of cancer, with potential for targeted treatment

New Research: FAPI PET Imaging Superior for Diagnosing Multiple Types of Cancer, with Potential for Targeted Treatment
Optimization of the specific activities of 111In-FAP6-IP-DOTA in HT29 tumors over time as a function of molar amount of FAP6 conjugate injected while maintaining the dose of radioactivity constant (~10 MBq). Arrows: a = 4T1 tumors; b = liver; c = kidneys. Credit: Society of Nuclear Medicine

A pair of articles published in the May issue of the Journal of Nuclear Medicine illustrate the promise of the novel FAPI radiotracer in diagnosing, staging, and treating multiple types of cancer. Results from the largest study of patients undergoing 68Ga-FAPI PET demonstrate the superiority of 68Ga-FAPI over standard 18F-FDG PET in evaluating multiple types of cancer. In a separate study, a newly designed FAPI-targeted treatment was found to suppress tumor growth in several common cancers in a preclinical setting. These advances have strong potential to provide more precise staging and management for cancer patients.

Cancer-associated fibroblasts are involved with , migration and progression. A sub-population of -associated fibroblasts express fibroblast activation protein (FAP). FAP is prominently expressed in but virtually absent from healthy tissues, which makes it an attractive diagnostic and therapeutic target for fibroblast activation protein inhibitors (FAPI).

In the first study, 324 patients with 21 different types underwent 68Ga-FAPI PET over a three-year period; 237 of them also received 18F-FDG PET imaging. Researchers compared 68Ga-FAPI PET and 18F-FDG PET in terms of uptake across tumor entities. They also examined whether there was a correlation between 68Ga-FAPI uptake on PET scan and FAP expression on stained tissue samples.

Uptake was significantly higher for 68Ga-FAPI as compared to 18F-FDG in primary lesions of pancreatic cancers and sarcoma and in metastatic lesions of pancreatic cancers. 68Ga-FAPI PET showed superior detection for local and regional disease in sarcoma as well as for distant metastatic disease in sarcoma and cancers of the pancreas, head and neck, bile ducts, lung, and bladder. A positive correlation was also found between radiotracer uptake and FAP expression levels in the tissue samples.

"68Ga-FAPI PET can be used as a tool for diagnosis of tumors, with the potential for more precise staging and management of patients with the aforementioned tumor entities," said Nader Hirmas, MD, ScD, a Ph.D. candidate at the Department of Nuclear Medicine at Essen University Hospital in Essen, Germany. "It could also be used as a tool to screen patients who would potentially benefit from FAP-directed radioligand therapy."

In the second study, researchers developed a new FAP radiopharmaceutical therapy that targets naturally occurring cancer-associated fibroblasts. "In previous tumor models, researchers altered cancer cells to express high levels of FAP as a target for therapy. In this study we sought to create a treatment that would be effective in the natural tumor environment," said Philip S. Low, Ph.D., presidential scholar for and Ralph C. Corley distinguished professor in the Department of Chemistry at Purdue University in West Lafayette, Indiana.

New Research: FAPI PET Imaging Superior for Diagnosing Multiple Types of Cancer, with Potential for Targeted Treatment
A 57-year-old male with stage 1B pancreatic adenocarcinoma (T2N0M0). (A) FAPI maximum-intensity projection (B) fused FAPI PET/CT (C) FAPI PET and (D) accompanying low dose CT along with concomitant (E) FDG maximum-intensity projection (F) fused FDG PET/CT (G) FDG PET and (H) accompanying high dose CT. Arrows point towards primary lesion in the pancreas (FAP SUVmax 25.1, FDG SUVmax 6.2). Credit: Society of Nuclear Medicine

Researchers used a modern bioanalytical method (single cell RNA-seq) to determine which cells in 34 human breast, ovarian, colorectal and lung tumors expressed FAP. Two radiopharmaceutical conjugates—FAP6-DOTA and FAP6-IP-DOTA (the latter of which contains an albumin-binder to prolong circulation and improve tumor uptake)—were developed and tested on human FAP-expressing cells. Radiopharmaceutical therapies of 177Lu-FAP6-DOTA and 177Lu-FAP6-IP-DOTA were also investigated in a mouse model.

FAP was found to be overexpressed on 5% of human tumor cells; cancer-associated fibroblasts constituted 77% of this FAP-subpopulation, while 2% were . FAP6-IP-DOTA was shown to exhibit high FAP affinity, prolonged circulation, increased tumor uptake, and minimal retention in healthy tissue. In addition, single doses of 177Lu-FAP6-IP-DOTA suppressed tumor growth by nearly 50% in all tested tumor models without causing reproducible toxicities.

"These data suggest that this newly designed FAP-targeted radiotherapy should be capable of treating many more types of human cancers in which the FAP expression is limited to only the cancer-associated fibroblasts," noted Spencer D. Lindeman, Ph.D., visiting scholar in the Department of Chemistry at Purdue University. "This could be a powerful and versatile tool for the field of clinical nuclear medicine."

More information: Nader Hirmas et al, Fibroblast-Activation Protein PET and Histopathology in a Single-Center Database of 324 Patients and 21 Tumor Entities, Journal of Nuclear Medicine (2022). DOI: 10.2967/jnumed.122.264689

Spencer D. Lindeman et al, Fibroblast Activation Protein–Targeted Radioligand Therapy for Treatment of Solid Tumors, Journal of Nuclear Medicine (2022). DOI: 10.2967/jnumed.122.264494

Journal information: Journal of Nuclear Medicine

Citation: New imaging method superior for diagnosing multiple types of cancer, with potential for targeted treatment (2023, May 2) retrieved 21 September 2023 from
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