Fibroblast Activation Protein Expression in Sarcomas

Theranostic strategies in sarcoma: preliminary clinical evidence

INTRODUCTION

Sarcomas encompass a highly diverse range of malignancies, characterized by varied morphological and molecular profiles. Treatment options in case of therapy-refractory or advanced disease are limited. In this context, theranostics emerges as an innovative platform seamlessly integrating diagnosis and therapy, offering promising prospects.

AREAS COVERED

This special report delves into the initial clinical applications of theranostic-based approaches in sarcomas. Specifically, it examines various strategies targeting biomarkers associated with sarcomas, including fibroblast activation protein (FAP), prostate-specific membrane antigen (PSMA), C-X-C chemokine receptor type 4 (CXCR4) and somatostatin receptor 2 (SSTR2).

EXPERT OPINION

The heterogeneous uptake of the CXCR4-targeted radioligand in lesions, along with its poor correlation with immunohistochemistry data, diminishes the attractiveness of this theranostic approach in the sarcoma oncological setting. SSTR2-targeted approaches in sarcoma, although potentially effective, are limited to a single case. Early experiences with FAP inhibitors in sarcoma patients have shown particularly promising outcomes, indicating effective disease control with minimal toxicity. While PSMA presents an enticing target for theranostic approaches in sarcomas, its utilization remains anecdotal and requires further investigation. Prospective and well-designed clinical trials are imperative to delineate the potential impact of FAPI- and PSMA-based approaches on sarcoma therapeutic landscapes, offering innovative and personalized treatment options.

A Review on Canine and Human Soft Tissue Sarcomas: New Insights on Prognosis Factors and Treatment Measures

Soft tissue sarcomas (STSs) represent a diverse group of tumors arising from mesenchymal cells, affecting both humans and animals, including dogs. Although STSs represent a class of rare tumors, especially in humans, they pose significant clinical challenges due to their potential for local recurrence and distant metastasis. Dogs, as a model for human STSs, offer several advantages, including exposure to similar environmental risk factors, genetic diversity among breeds, and the spontaneous development of tumors. Furthermore, canine tumors closely mimic the heterogeneity and complexity of human tumors, making them valuable for research into disease progression and treatment effectiveness. Current treatment approaches for STSs in both dogs and humans primarily involve surgery, radiation therapy, and chemotherapy, with treatment decisions based on tumor characteristics and patient factors. However, the development of novel therapeutic strategies is essential, given the high failure rate of new drugs in clinical trials. To better design new tailored treatments, comprehension of the tumor microenvironment (TME) is fundamental, since it plays a crucial role in STS initiation and progression by modulating tumor behavior, promoting angiogenesis, and suppressing immune responses. Notably, TME features include cancer-associated fibroblasts (CAFs), extracellular matrix (ECM) alterations, and tumor-associated macrophages (TAMs) that, depending on their polarization state, can affect immune responses and thus the patient's prognosis. In this review, new therapeutical approaches based on immunotherapy will be deeply explored as potential treatment options for both dogs and humans with STSs. In conclusion, this review provides an overview of the current understanding of STSs in dogs and humans, emphasizing the importance of the TME and potential treatment strategies.

Feasibility and therapeutic potential of [177Lu]Lu-FAPI-2286 in patients with advanced metastatic sarcoma

INTRODUCTION

The unique expression pattern of fibroblast activation protein (FAP) in stromal and tumor cells, particularly in sarcomas, and its absence in normal tissues, have positioned it as a promising theragnostic approach for the detection and treatment of various cancer types. The objective of this prospective study is to assess the feasibility, safety, biodistribution, and therapeutic efficacy of [177Lu]Lu-FAPI-2286 in patients with advanced metastatic sarcoma.

PATIENTS AND METHODS

Eight patients with advanced metastatic sarcoma, who were unresectable or had experienced disease recurrence following conventional treatments, underwent PTRT (peptide-targeted radionuclide therapy) using [177Lu]Lu-FAPI-2286. Prior to the treatment, confirmation of tumor uptake was obtained through [68Ga]Ga-FAPI-2286 PET/CT.

RESULTS

After four cycles of PTRT with [177Lu]Lu-FAPI-2286 (6660-7400 MBq), with a 6-8-week interval between each cycle, no grade 3 or 4 side effects were observed in the patients, and the treatment was well tolerated by all participants. The results demonstrated a 52.37% reduction in the average volume of the primary tumor, accompanied by a significant decrease in SUVmax and TBR of the metastatic lesions (29.67% and 43.66% respectively), especially in cases of lung metastasis. Furthermore, besides the improvement in physical capacity, there was a noticeable reduction in pain, an increase in overall survival, and enhanced satisfaction with the treatment reported by the patients.

CONCLUSION

[177Lu]Lu-FAPI-2286 PTRT, utilized for diverse cancer types, exhibited favorable tolerability in sarcoma patients, with minimal side effects, long-lasting retention of the radiopeptide within the tumor, and promising therapeutic effects. Preliminary findings of this prospective study need to be confirmed through further clinical trials.

Overall review of curative impact and barriers of CAR-T cells in osteosarcoma

Osteosarcoma (OS) is a rare form of cancer and primary bone malignancy in children and adolescents. Current therapies include surgery, chemotherapy, and amputation. Therefore, a new therapeutic strategy is needed to dramatically change cancer treatment. Recently, chimeric antigen receptor T cells (CAR-T cells) have been of considerable interest as it has provided auspicious results and patients suffering from low side effects after injection that resolve with current therapy. However, there are reports that cytokine release storm (CRS) can be observed in some patients. In addition, as researchers have faced problems that limit and suppress T cells, further studies are required to resolve these problems. In addition, to maximize the therapeutic benefit of CAR-T cell therapy, researchers have suggested that combination therapy could be better used to treat cancer by overcoming any problems and reducing side effects as much as possible. This review summarizes these problems, barriers, and the results of some studies on the evaluation of CAR-T cells in patients with osteosarcoma.

In vivo activation of FAP-cleavable small molecule-drug conjugates for the targeted delivery of camptothecins and tubulin poisons to the tumor microenvironment

Small molecule-drug conjugates (SMDCs) are increasingly considered as a therapeutic alternative to antibody-drug conjugates (ADCs) for cancer therapy. OncoFAP is an ultra-high affinity ligand of Fibroblast Activation Protein (FAP), a stromal tumor-associated antigen overexpressed in a wide variety of solid human malignancies. We have recently reported the development of non-internalizing OncoFAP-based SMDCs, which are activated by FAP thanks to selective proteolytic cleavage of the -GlyPro- linker with consequent release of monomethyl auristatin E (MMAE) in the tumor microenvironment. In this article, we describe the generation and the in vivo characterization of FAP-cleavable OncoFAP-drug conjugates based on potent topoisomerase I inhibitors (DXd, SN-38, and exatecan) and an anti-tubulin payload (MMAE), which are already exploited in clinical-stage and approved ADCs. The Glycine-Proline FAP-cleavable technology was directly benchmarked against linkers found in Adcetris™, Enhertu™, and Trodelvy™ structures by means of in vivo therapeutic experiments in mice bearing tumors with cellular or stromal FAP expression. OncoFAP-GlyPro-Exatecan and OncoFAP-GlyPro-MMAE emerged as the most efficacious anti-cancer therapeutics against FAP-positive cellular models. OncoFAP-GlyPro-MMAE exhibited a potent antitumor activity also against stromal models, and was therefore selected for clinical development.