Detecting Functional and Accessible Folate Receptor Expression in Cancer and Polycystic Kidneys.

Folate-based small molecule drug conjugates (SMDCs) are currently under development and have shown promising preclinical and clinical results against various cancers and polycystic kidney disease. Two requisites for response to a folate-based SMDC are (i) folate receptor alpha (FRα) protein is expressed in the diseased tissues, and (ii) FRα in those tissues is accessible and functionally competent to bind systemically administered SMDCs. Here we report on the development of a small molecule reporter conjugate (SMRC), called EC2220, which is composed of a folate ligand for FRα binding, a multilysine containing linker that can cross-link to FRα in the presence of formaldehyde fixation, and a small hapten (fluorescein) used for immunohistochemical detection.

Preclinical Evaluation of Bispecific Adaptor Molecule Controlled Folate Receptor CAR-T Cell Therapy With Special Focus on Pediatric Malignancies.

Chimeric antigen receptor (CAR)-T cell therapy has transformed pediatric oncology by producing high remission rates and potent effects in CD19+ B-cell malignancies. This scenario is ideal as CD19 expression is homogeneous and human blood provides a favorable environment for CAR-T cells to thrive and destroy cancer cells (along with normal B cells). Yet, CAR-T cell therapies for solid tumors remain challenged by fewer tumor targets and poor CAR-T cell performances in a hostile tumor microenvironment.

Comparison of folate-conjugated rapamycin versus unconjugated rapamycin in an orthologous mouse model of polycystic kidney disease.

Autosomal-dominant polycystic kidney disease (ADPKD) is a very common genetic disease leading to renal failure. Numerous aberrantly regulated signaling pathways have been identified as promising molecular drug targets for ADPKD therapy. In rodent models, many small-molecule drugs against such targets have proven effective in reducing renal cyst growth.

Antiinflammatory Activity of a Novel Folic Acid Targeted Conjugate of the mTOR Inhibitor Everolimus.

Folate receptor (FR)-β has been identified as a promising target for antimacrophage and antiinflammatory therapies. In the present study, we investigated EC0565, a folic acid-derivative of everolimus, as a FR-specific inhibitor of the mammalian target of rapamycin (mTOR). Because of its amphiphilic nature, EC0565 was first evaluated for water solubility, critical micelle formation, stability in culture and FR-binding specificity.

Targeting folate receptors to treat invasive urinary bladder cancer.

Folate receptors (FR) may be of use for targeted delivery of cytotoxic drugs in invasive urothelial carcinoma (iUC), for which improved therapy is needed. FR expression and function in iUC were explored and the antitumor activity and toxicity of a folate-targeted vinblastine conjugate were evaluated in dogs with naturally occurring iUC, an excellent model for human iUC. FR immunohistochemistry was carried out on iUC and normal human and dog bladder tissues together with nuclear scintigraphy in dogs to monitor iUC folate uptake.

Reducing undesirable hepatic clearance of a tumor-targeted vinca alkaloid via novel saccharopeptidic modifications.

During a phase I trial of EC145 (a folate-targeted vinca alkaloid conjugate), constipation was identified as the dose-limiting toxicity, probably from a nonfolate receptor-related liver clearance process capable of releasing unconjugated vinca alkaloid from EC145 and shuttling it to the bile. Here, we report on the selective placement of novel carbohydrate segments (1-amino-1-deoxy-glucitolyl-γ-glutamate) spaced in-between the folate and vinca alkaloid moieties of EC145, which yielded a new agent (EC0489) that is equipotent but less toxic than EC145. Whereas both compounds could cure tumor-bearing mice reproducibly, EC0489 differed from EC145 with i) a shorter elimination half-life, ii) approximately 70% decrease in bile clearance, iii) a 4-fold increase in urinary excretion, and iv) improved tolerability in rodents.

In vivo structural activity and optimization studies of folate-tubulysin conjugates.

Herein we report on the potencies of 4 related folate-conjugated tubulysins constructed with either tubulysin B hydrazide (EC0305), tubulysin A hydrazide (EC0510), the N,O-acetal derivative of natural tubulysins (EC0317) or a tubulysin B ester (EC0302). Our results confirmed that EC0305 is the most favorable conjugate of the group due to its potent antitumor activity [100% cures at 1 micromol/kg, three times a week (TIW) for 2 weeks] and its favorably low toxicity profile. In contrast, the natural tubulysin B drug proved to be inactive against a human nasopharyngeal tumor model when administered at doses near to or greater than the maximum tolerated dose (MTD).

Folate targeting enables durable and specific antitumor responses from a therapeutically null tubulysin B analogue.

The membrane-bound high-affinity folate receptor (FR) is highly expressed on a wide range of primary and metastatic human cancers, such as those originating in ovary, lung, breast, endometrium, kidney, and brain. Because folate-linked conjugates bind to and become internalized within FR-expressing cells (similar to that of free folic acid), we explored the possibility of using the folate ligand to target a potent, semisynthetic analogue of the microtubule inhibitor tubulysin B to FR-enriched tumors. When tested in vitro, a novel folate conjugate, herein referred to as EC0305, was found to specifically inhibit the growth of a panel of FR-positive cell lines (IC50 range, 1-10 nmol/L) in a dose-dependent manner, whereas cells lacking FR expression were unaffected.

Impact of high and low folate diets on tissue folate receptor levels and antitumor responses toward folate-drug conjugates.

Herein, we present a detailed analysis on the effects of feeding laboratory mice both high and low folic acid (folate)-containing diets as related to associated changes in serum and red blood cell (RBC) folate levels, tissue-derived folate receptor levels, and the ability of folate-drug conjugates to bind and effectuate activity against folate receptor (FR)-positive tumor xenografts. Our data show that serum and RBC folate concentrations sharply drop immediately after mice are switched to low folate diets; however, both parameters reach steady-state, "human-like" levels after 6 weeks. Interestingly, tissue-related folate binding capacities were also lowered during the dietary modulation period, whereas the net uptake of a radiolabeled folate conjugate was simultaneously increased 2.

Comparative preclinical activity of the folate-targeted Vinca alkaloid conjugates EC140 and EC145.

EC140 is a water soluble folate conjugate of desacetylvinblastine monohydrazide (DAVLBH), which is constructed with an endosome-cleavable acyl hydrazone bond. This agent has proven to be active and specific against well established, subcutaneous folate receptor (FR)-positive tumors in multiple animal models. Recent structure-activity and optimization studies have yielded a disulfide bond-containing counterpart to EC140, herein referred to as EC145.

Preclinical pharmacokinetics, tissue distribution, and antitumor activity of a folate-hapten conjugate-targeted immunotherapy in hapten-immunized mice.

Folic acid (pteroylglutamic acid) represents a useful ligand for targeted cancer therapies because it binds to a common epithelial tumor antigen known as the folate receptor. We previously devised an immunotherapy strategy that uses a bispecific ligand, a folate-hapten (FITC) conjugate, to redirect endogenously induced anti-FITC antibodies to folate receptor-positive tumor cells following parenteral administration. Here, we present results from preclinical pharmacokinetic and tissue biodistribution studies using a radioactive folate-FITC conjugate and results from dose optimization studies done in tumor-bearing animals.

Synthesis and biological evaluation of EC72: a new folate-targeted chemotherapeutic.

A novel folate conjugate of mitomycin C, herein referred to as EC72, was designed and evaluated for biological activity against FR-positive cells and tumors. EC72 was produced by coupling folic acid-gamma-cysteine to 7-N-modified MMC via a disulfide bond. This water soluble conjugate was found to retain high affinity for FR-positive cells, and it produced dose responsive activity in vitro against a panel of folate receptor (FR)-positive cell lines.

Folate receptor expression in carcinomas and normal tissues determined by a quantitative radioligand binding assay.

The folate receptor (FR) is a valuable therapeutic target that is highly expressed on a variety of cancers. The current development of folate-targeted cancer therapies has created the need for quantitating functional FRs in clinical specimens. In this article, we report on the creation of a highly sensitive radioactive binding method for quantitatively measuring FR expression in frozen tissue homogenates.

Preclinical evaluation of (99m)Tc-EC20 for imaging folate receptor-positive tumors.

Unlabelled: Our group previously reported on the synthesis and characterization of a novel (99m)Tc-based folate-peptide chelator called EC20. This agent was found to bind folate receptor (FR)-positive cells and tissues with high affinity and was deemed useful for radiodiagnostic applications. In this study, we investigated the effect of D-amino acid substitution within EC20 on its tissue biodistribution.