The Open, Randomized, Positive Control Clinical Trial of Guluronic Acid (G2013) on SARS-CoV-2 Patients.

INTRODUCTION: Recently, the coronavirus disease 2019 (COVID-19) infection, with a vast spectrum of clinical and paraclinical symptoms has been a major health concern worldwide. Therapeutical management of COVID-19 includes antiviral and anti-inflammatory drugs. NSAIDs, as the second-line therapy, are often prescribed to relieve the symptoms of COVID-19. The α-L-guluronic acid (G2013) is a non-steroidal patented (PCT/EP2017/067920) agent with immunomodulatory properties. This study investigated the effect of G2013 on the outcome of COVID-19 in moderate to severe patients. METHODS: The disease's symptoms were followed up during hospitalization and for 4 weeks postdischarge in G2013 and control groups. Paraclinical indices were tested at the time of admission and discharge. Statistical analysis was performed on clinical and paraclinical parameters and ICU admission and death rate. RESULTS: The primary and secondary outcomes indicated the efficiency of G2013 on COVID-19 patients' management. There were significant differences in the duration of improvement of fever, coughing, fatigue/malaise. Also, a comparison of paraclinical indices at the time of admission and discharge showed significant change in prothrombin, D-dimer, and platelet. As the main findings of this study, G2013 significantly decreased the percentage of ICU admission (control:17 patients, G2013:1 patient) and death (control: 7 cases, G2013:0). CONCLUSION: These results conclude that G2013 has sufficient potential to be considered for moderate to severe COVID-19 patients, can significantly reduce the clinical and physical complications of this disease, has a positive effect on modulating the coagulopathy process, and aids in saving lives.

In Vitro and In Vivo Studies of a Heminecrolysin Toxin-VEGF Fusion Protein as a Novel Therapeutic for Solid Tumor Targeting.

Angiogenesis, the formation of new vessels, is a critical step in the malignancy progression of solid tumors. Many investigations have demonstrated the usefulness of immunotoxins to halt angiogenesis in solid tumors. Pharmaceutically, Vascular Endothelial Growth Factor (VEGF) can deliver coupled toxins to the tumor vessels through VEGF Receptors. In the current study, we designed, expressed, and assessed the in vitro and in vivo toxicities of a novel immunotoxin consisting of mouse VEGF and heminecrolysin toxin (mVEGF-HNc). The fusion protein was expressed in E. coli and purified via Ni+2 affinity chromatography. The biological activity of immunotoxin was evaluated on NIH/3T3 cells and TC1-tumorized mouse model. The mVEGF-NHc showed significant cytotoxicity on the cells as VEGFR-expressing cells. Moreover, the size of the tumor in the mVEGF-HNc-treated group started to reduce after six injections, while it continued to grow in the PBS-received mice. Efficacious targeting of solid tumor cells via mVEGF-HNc suggests its prospective therapeutic potential for cancer therapy.