Phase I study of VSV-GP (BI 1831169) as monotherapy or combined with ezabenlimab in advanced and refractory solid tumors.

Patients with advanced, recurrent or metastatic cancer have poor prognosis despite treatment advancements. Vesicular stomatitis virus (VSV)-glycoprotein (GP; BI 1831169) is a chimeric VSV with its neurotropic glycoprotein G replaced by the non-neurotropic GP of the lymphocytic choriomeningitis virus. This live, recombinant oncolytic virus has demonstrated preclinical efficacy as a viral-based immunotherapy due to its interferon-dependent tumor specificity, potent oncolysis and stimulation of antitumor immune activity. Co-administration of the immune checkpoint inhibitor, ezabenlimab (BI 754091), alongside VSV-GP may synergistically enhance antitumor immune activity. Here, we describe the rationale and design of the first-in-human, phase I, dose-escalation study of VSV-GP alone and in combination with the immune checkpoint inhibitor ezabenlimab in patients with advanced, metastatic or relapsed and refractory solid tumors (NCT05155332).

There is a need to develop new treatments for people living with cancer. Immunotherapy is a type of medicine that works by helping the body's natural defenses, known as the immune system, to destroy cancer cells. There are different types of immunotherapies such as oncolytic viruses (OVs) and immune checkpoint inhibitors (ICIs). OVs are viruses that may help destroy cancer cells while leaving normal cells unharmed. They work by replicating within cancer cells; this causes them to burst and release more of the virus which then infects nearby cancer cells and activates the body's immune system. ICIs may be able to work together with OVs to amplify this effect. Vesicular stomatitis virus (VSV)-glycoprotein (GP) is a type of OV that has been shown to effectively destroy cancer cells in animal studies. This first-in-human study will investigate VSV-GP on its own and in combination with an ICI called ezabenlimab for the treatment of late-stage cancer or cancer that has spread to multiple parts of the body. Here, we describe the background and design of this study in progress which aims to find out if VSV-GP alone or in combination with ezabenlimab is effective against cancer, the suitable dose and if any side effects occur. Trial Registration Number: NCT05155332 (ClinicalTrials.gov).

Tumoral Immune Cell Exploitation in Colorectal Cancer Metastases Can Be Targeted Effectively by Anti-CCR5 Therapy in Cancer Patients.

The immune response influences the clinical course of colorectal cancer (CRC). Analyzing the invasive margin of human CRC liver metastases, we identified a mechanism of immune cell exploitation by tumor cells. While two distinct subsets of myeloid cells induce an influx of T cells into the invasive margin via CXCL9/CXCL10, CCL5 is produced by these T cells and stimulates pro-tumoral effects via CCR5. CCR5 blockade in patient-derived functional in vitro organotypic culture models showed a macrophage repolarization with anti-tumoral effects. These anti-tumoral effects were then confirmed in a phase I trial with a CCR5 antagonist in patients with liver metastases of advanced refractory CRC. Mitigation of tumor-promoting inflammation within the tumor tissue and objective tumor responses in CRC were observed.

The U2AF35-related protein Urp contacts the 3' splice site to promote U12-type intron splicing and the second step of U2-type intron splicing.

The U2AF35-related protein Urp has been implicated previously in splicing of the major class of U2-type introns. Here we show that Urp is also required for splicing of the minor class of U12-type introns. Urp is recruited in an ATP-dependent fashion to the U12-type intron 3' splice site, where it promotes formation of spliceosomal complexes. Remarkably, Urp also contacts the 3' splice site of a U2-type intron, but in this case is specifically required for the second step of splicing. Thus, through recognition of a common splicing element, Urp facilitates distinct steps of U2- and U12-type intron splicing.