Intravenous Infusions of Rexin-G Followed by Reximmune-C Induce Tumor Necrosis and Recruitment of Tumor Infiltrating Lymphocytes in Cancerous Lesions (ASCO 2008)

SAN MARINO, Calif., May 27 (SEND2PRESS NEWSWIRE) — Epeius Biotechnologies ( announced today that the results of a Phase I Feasibility Study of sequential targeted gene delivery-using Rexin-G followed by Reximmune-C-for cancer vaccination will be presented at the ASCO meetings in Chicago on June 1, 2008 (J Clin Oncol 26:3077, 2008). Rexin-G and Reximmune-C are pathotropic (disease-seeking) nanoparticles bearing a cytocidal cyclin G1 gene and a granulocyte-macrophage colony stimulating factor (GM-CSF) gene, respectively. When injected intravenously, these targeted vectors seek out and accumulate in cancerous lesions, thus increasing the effective local concentrations of the therapeutic nanoparticles within the tumors.

Caption: EpeiusThe working hypothesis behind this two-stage approach to cancer management predicts that strategic and individualized vaccination of a patient against his/her own cancer can be achieved by combining (1) the targeted vector bearing a potent cytocidal construct, Rexin-G, with (2) a targeted vector bearing an immune activating gene, Reximmune-C. Rexin-G is given first to kill the cancer cells and thus expose neoantigens within the tumors, followed by Reximmune-C to recruit the body’s immune cells into the same tumor compartments, thereby prompting recognition of the tumor neoantigens in situ and inducing long-lasting anti-tumor immunity.

The purpose of the Phase I study was to evaluate the over-all safety/toxicity and therapeutic potential of this sequential regimen, in an effort to achieve a personalized cancer vaccination in vivo. Seven patients with chemo-resistant cancer, including carcinoma of breast, colon and pancreas, non-small cell lung cancer and leiomyosarcoma, received Rexin-G i.v. at a dose of 4 x 10e10 cfu per day for 2 to 6 weeks (Cumulative Dose: 4.0 x 10e11 to 1.2 x 10e12 cfu) followed by Reximmune-C i.v. at 2.5 x 10e9 cfu for 5 days or 5 x 10e9 cfu for 2 days (Cumulative Dose: 1.00 -1.25 x 10e10 cfu).

Analysis of Safety showed that no dose-limiting toxicity was observed with this regimen, and immunoreactive GM-CSF protein was NOT detected in serum samples either during or after treatment with Reximmune-C. There was no significant alteration in hemodynamic function, bone marrow suppression, liver, kidney, or any other organ dysfunction related to the intervention. Immune-related reactions consisted of transient flu-like symptoms in two patients, redness and swelling of a tumor-infiltrated lymph node and one metastatic chest nodule, and acute flank pain in one patient with adrenal gland metastasis.

Analysis of efficacy in biopsied tumor specimens revealed definitive expression of the GM-CSF transgene in cancer cells indicating effective gene delivery in vivo. Further, extensive tumor necrosis and tumor infiltrating lymphocytes (TILs) were observed within the tumors. Characterization of the recruited TILs showed CD35+ dendritic cells, CD8+ killer T cells, and CD138+ plasma B cells, with lesser amounts of CD68+ macrophages and CD20+ B cells, suggesting a relatively mature or advanced immune response.

Taken together, this landmark study demonstrates (1) that the functionality of the gene delivery platform is profound; (2) the genetic constructs employed are relatively safe; and (3) the potential for a personalized cancer vaccination using this sequential gene transfer approach is now a realistic goal.

For more information about Rexin-G, Reximmune-C, on-going clinical trials in the USA and abroad, and/or Epeius pathotropic (disease-seeking) gene delivery systems, please contact Dr. Erlinda M. Gordon at

News issued by: Epeius Biotechnologies Corporation

Epeius Biotechnologies Corporation

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Original Story ID: (4003) :: 2008-05-0527-001

Original Keywords: Epeius Biotechnologies Corporation Rexin-G, cancer management, Phase I Feasibility Study of sequential targeted gene delivery, Reximmune-C to recruit the body’s immune cells, Dr. Erlinda M. Gordon Epeius Biotechnologies Corporation

News Source: Epeius Biotechnologies Corporation