New Preclinical Data Show Can-Fite's Namodenoson (CF102) Prevents Progression of Liver Fibrosis
- Phase II trial to treat NAFLD/NASH expected to commence in 2017
- Lowering liver fat content and fibrosis are the main unmet needs in NASH, according to KOL Dr. Rifaat Safadi
Feb 28, 2017, 07:00 ET
PETACH TIKVA, Israel, Feb. 28, 2017 /PRNewswire/ -- Can-Fite BioPharma Ltd. (NYSE MKT: CANF) (TASE:CFBI), a biotechnology company advancing a pipeline of proprietary small molecule drugs that address cancer, liver and inflammatory diseases, today announced new data that show its liver disease drug candidate Namodenoson (CF102) prevented liver (hepatic) fibrosis progression in preclinical studies.
"These latest study results add to the growing body of data that demonstrate Namodenoson's potential efficacy in combating non-alcoholic fatty liver disease (NAFLD), the precursor to non-alcoholic steatohepatitis (NASH), indications for which there is currently no FDA approved drug. We are advancing Namodenoson into a Phase II trial in NAFLD and expect to commence patient enrollment in the coming months through leading medical institutions in Israel," stated Can-Fite CEO Dr. Pnina Fishman.
Liver fibrosis is the excessive accumulation of scar tissue resulting from ongoing inflammation. It can result in diminished blood flow throughout the liver and is associated with NAFLD.
Recent preclinical studies in a mouse model of liver fibrosis demonstrated the anti-fibrotic effects of Namodenoson. The Namodenoson treated group exhibited normal liver under macroscopic view, no accumulation of fluid (ascites), a low fibrosis profile, and lower serum levels of transaminases as compared to the control group. In addition, liver protein extracts and mRNA for the alpha smooth muscle actin showed a significant anti-fibrotic effect in the Namodenoson treated group as compared to the control group.
These studies were conducted by a third party under the supervision of Prof. Rifaat Safadi M.D., a Key Opinion Leader in the field of liver diseases, and Director of Liver Unit, Institute of Gastroenterology and Liver Diseases, Hadassah University Hospital, Ein Kerem.
Prof. Safadi commented, "Lowering liver fat content and fibrosis are the main unmet needs in NASH. Today there is a huge market need for drugs that fight the worldwide NASH epidemic."
"Namodenoson is uniquely compelling for its potential to treat NAFLD and NASH because its safety profile has already been de-risked, increasing the likelihood it can advance through late stage trials and into clinical use for this large and unmet need," Dr. Safadi added. "In general, there is significant development risk for new potential drugs in development due to safety risks including drug induced liver injury (DILI), drug-to-drug interactions (DDI), and metabolites in safety testing (MIST). Namodenoson, however, has demonstrated a good safety profile and is low or negative for DILI, DDI and MIST."
"In addition, Namodenoson recognizes the difference between diseased and normal cells, and targets only the diseased cells through the specific A3 adenosine receptor. This precision targeting is designed to lead to higher efficacy and safety by leaving healthy cells unaffected. We are all looking for drugs with this profile to treat NASH," concluded Dr. Safadi.
- Phase II trial to treat NAFLD/NASH expected to commence in 2017
- Lowering liver fat content and fibrosis are the main unmet needs in NASH, according to KOL Dr. Rifaat Safadi
Feb 28, 2017, 07:00 ET
PETACH TIKVA, Israel, Feb. 28, 2017 /PRNewswire/ -- Can-Fite BioPharma Ltd. (NYSE MKT: CANF) (TASE:CFBI), a biotechnology company advancing a pipeline of proprietary small molecule drugs that address cancer, liver and inflammatory diseases, today announced new data that show its liver disease drug candidate Namodenoson (CF102) prevented liver (hepatic) fibrosis progression in preclinical studies.
"These latest study results add to the growing body of data that demonstrate Namodenoson's potential efficacy in combating non-alcoholic fatty liver disease (NAFLD), the precursor to non-alcoholic steatohepatitis (NASH), indications for which there is currently no FDA approved drug. We are advancing Namodenoson into a Phase II trial in NAFLD and expect to commence patient enrollment in the coming months through leading medical institutions in Israel," stated Can-Fite CEO Dr. Pnina Fishman.
Liver fibrosis is the excessive accumulation of scar tissue resulting from ongoing inflammation. It can result in diminished blood flow throughout the liver and is associated with NAFLD.
Recent preclinical studies in a mouse model of liver fibrosis demonstrated the anti-fibrotic effects of Namodenoson. The Namodenoson treated group exhibited normal liver under macroscopic view, no accumulation of fluid (ascites), a low fibrosis profile, and lower serum levels of transaminases as compared to the control group. In addition, liver protein extracts and mRNA for the alpha smooth muscle actin showed a significant anti-fibrotic effect in the Namodenoson treated group as compared to the control group.
These studies were conducted by a third party under the supervision of Prof. Rifaat Safadi M.D., a Key Opinion Leader in the field of liver diseases, and Director of Liver Unit, Institute of Gastroenterology and Liver Diseases, Hadassah University Hospital, Ein Kerem.
Prof. Safadi commented, "Lowering liver fat content and fibrosis are the main unmet needs in NASH. Today there is a huge market need for drugs that fight the worldwide NASH epidemic."
"Namodenoson is uniquely compelling for its potential to treat NAFLD and NASH because its safety profile has already been de-risked, increasing the likelihood it can advance through late stage trials and into clinical use for this large and unmet need," Dr. Safadi added. "In general, there is significant development risk for new potential drugs in development due to safety risks including drug induced liver injury (DILI), drug-to-drug interactions (DDI), and metabolites in safety testing (MIST). Namodenoson, however, has demonstrated a good safety profile and is low or negative for DILI, DDI and MIST."
"In addition, Namodenoson recognizes the difference between diseased and normal cells, and targets only the diseased cells through the specific A3 adenosine receptor. This precision targeting is designed to lead to higher efficacy and safety by leaving healthy cells unaffected. We are all looking for drugs with this profile to treat NASH," concluded Dr. Safadi.
About Namodenoson (CF102)
Namodenoson is a small orally bioavailable drug that binds with high affinity and selectivity to the A3 adenosine receptor (A3AR). A3AR is highly expressed in diseased cells whereas low expression is found in normal cells. This differential effect accounts for the excellent safety profile of the drug. In Can-Fite's pre-clinical and clinical studies, Namodenoson has demonstrated a robust anti-tumor effect via deregulation of the Wnt signaling pathway, resulting in apoptosis of liver cancer cells. Based on preclinical data showing Namodenoson has strong liver protective properties, Can-Fite intends to initiate a Phase II study in NASH. Can-Fite has received Orphan Drug Designation for Namodenoson in Europe and the U.S., as well as Fast Track Status in the U.S. as a second line treatment for hepatocellular carcinoma.
Namodenoson is a small orally bioavailable drug that binds with high affinity and selectivity to the A3 adenosine receptor (A3AR). A3AR is highly expressed in diseased cells whereas low expression is found in normal cells. This differential effect accounts for the excellent safety profile of the drug. In Can-Fite's pre-clinical and clinical studies, Namodenoson has demonstrated a robust anti-tumor effect via deregulation of the Wnt signaling pathway, resulting in apoptosis of liver cancer cells. Based on preclinical data showing Namodenoson has strong liver protective properties, Can-Fite intends to initiate a Phase II study in NASH. Can-Fite has received Orphan Drug Designation for Namodenoson in Europe and the U.S., as well as Fast Track Status in the U.S. as a second line treatment for hepatocellular carcinoma.
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