Centurion BioPharma targeting strategic alliance for LADR drug conjugates by year's end
Centurion BioPharma, a newly-created private subsidiary of CytRx (NASDAQ:CYTR), is currently in discussions with a number of pharma companies for a strategic alliance to continue development of its patient-identifying companion diagnostic and Linker-Activated Drug Release (LADR) anti-cancer drug candidates.
“More details on the companion diagnostic will become available in the weeks ahead,” Eric Curtis, Centurion BioPharma CEO and president, says in an interview with BioTuesdays.
“We believe that the companion diagnostic creates additional transformative potential,” he adds. “Our goal is to have a term sheet signed by this September and a deal closed by the end of the year.”
Mr. Curtis says a pharma partnership would determine the next steps for a pre-IND meeting with the FDA and filing an IND for first-in-human studies with the company’s LADR drug conjugates,” he points out.
“We are looking for a global partnership but would be open to regional alliances,” Mr. Curtis suggests, adding, “Our going assumption is that a pharma partner would license the companion diagnostic and all four of our LADR candidates.”
CytRx recently transferred its LADR assets into Centurion BioPharma as a vehicle to enhance its efforts to attract potential licensees and to focus on advancement of the companion diagnostic and LADR drug candidates.
Centurion BioPharma has preclinical data for four drug candidates: LADR-7, LADR-8, LADR-9 and LADR-10. All four candidates are eligible to advance into IND-enabling studies. The LADR platform has been studied in numerous solid tumor types, so “we think our platform has broad tumor potential,” Mr. Curtis contends.
He explains that the LADR technology uses serum albumin to transport the drug conjugate to the tumor, with a cleavable linker and ultra high potency drug payload attached. The linker keeps the drug payload inactive until the conjugate reaches the tumor, where it is cleaved off, activating the drug payload.
The LADR technology is designed to concentrate drug release at the tumor site, minimizing toxicity to surrounding tissue, compared with the parent molecule.
Albumin is a major source of amino acids and fuel for tumor cells. Mr. Curtis points out that an impaired tumor vasculature allows macromolecules like albumin to exit the bloodstream into the tumor microenvironment and ultimately be taken up into the tumor. “LADR conjugates exploit this feature of cancer biology to localize at the tumor.”
In April, CytRx presented three posters at the American Association for Cancer Research, featuring statistically significant preclinical efficacy data for the company’s four LADR drug candidates.
The posters highlighted positive scientific findings that led to CytRx’s decision to select auristatin E derivatives as the drug payload in LADR-7 and LADR-8, and maytansine derivatives as the payload in LADR-9 and LADR-10.
Auristatins are a highly potent cytotoxic family of peptides and to date, only one auristatin antibody drug conjugate, Adcetris, has been approved and marketed.
In a preclinical study comparing LADR-7 and LADR-8 with a control group or the parent auristatin, CytRx’s two drug conjugates demonstrated statistically significant antitumor activity, inducing long-term complete and partial responses in median relative tumor volume in all models including, melanoma, ovarian, non-small cell lung cancer, and head and neck cancers.
Maytansine inhibits proliferation of cancer cells, but its narrow therapeutic window prevents most clinical applications and to date, only one maytansinoid antibody, Kadcyla, has been approved for use in Herceptin-resistant breast cancer.
In a preclinical study comparing LADR-9 and LADR-10 with the parent maytansine, CytRx’s two drug conjugates demonstrated long-term partial and complete reductions in relative tumor volume in all cancer models studied, including lung, breast, ovarian, renal cell, and head and neck cancers. They also showed statistically significant superiority over the parent drug, maytansine.
According to Mr. Curtis, when paired with the companion diagnostic, LADR conjugates have competitive advantages, compared with antibody-drug conjugates, including broad therapeutic utility and patient populations, no narrow antibody receptor requirements, low risk of an immune response, low cost of goods and a simplified manufacturing process. LADR also has a “high probability of clinical and regulatory success,” he adds.
In May, H.C. Wainwright analyst, Raghuram Selvaraju, assumed coverage of CytRx, citing its two value drivers: the LADR platform and a license agreement with closely-held NantCell for aldoxorubicin, CytRx’s lead anti-cancer drug conjugate.
Mr. Selvaraju notes that the NantCell partnership connects CytRx to Dr. Patrick Soon-Shiong, who has had prior success in developing albumin-conjugated anti-cancer drugs. Dr. Soon-Shiong founded Abraxis BioScience, which took a drug very similar to aldoxorubicin, Abraxane, or albumin-bound paclitaxel, through clinical development and regulatory approval and was then acquired by Celgene for $3.5-billion in 2010.
In April, 2017, CytRx announced that the FDA agreed that CytRx could use the 505(b)(2) regulatory section when submitting a NDA for aldoxorubicin.
Under a July 2017 accord, NantCell is responsible for future development, manufacturing and commercialization of aldoxorubicin. CytRx is eligible to receive up to $343-million in potential milestones, with increasing double-digit royalties on sales of aldoxorubicin to treat soft tissue sarcomas and increasing single-digit royalties on sales for all other indications.
Mr. Curtis says NantCell is testing aldoxorubicin in combination with immunotherapies and cell-based treatments. Aldoxorubicin, an albumin-binding drug conjugate of doxorubicin, already has been tested in more than 600 cancer patients.
In January and February of 2018, NantCell began two Phase 1b/2 clinical trials with aldoxorubicin in metastatic pancreatic cancer and advanced squamous cell carcinoma of the head and neck or non-small cell lung cancer. At the end of last month, NantCell dosed the first patient in the Phase 1b portion of another Phase 1b/2 clinical trial for patients with triple negative breast cancer.
Last month, aldoxorubicin data, including its relevance in the future treatment of soft tissue sarcoma, was published in the peer-reviewed journal, Future Oncology.
The paper notes that aldoxorubicin was principally developed to increase efficacy and overcome the cardiotoxic side effects of the anthracycline agent, doxorubicin. CytRx’s earlier studies with aldoxorubicin demonstrated increased progression-free survival and tumor response, with tolerable side effects.
The authors conclude that the unique biochemical structure of aldoxorubicin causes its target-specific drug delivery property, which, in combination with its negligible levels of cardiotoxicity even at high doses, should give aldoxorubicin a “meaningful role in the treatment of patients with metastatic soft tissue sarcoma, as an adjuvant therapy in sarcomas, or as a treatment for patients who have other anthracycline sensitive tumor types.”
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