Cancer diseases

Interferon-α Inhibits Melanoma Metastasis

IFN-alpha reduces the ability of cancer stem cells to form tumors

Interferon Influences the Effectiveness of Radiotherapy

Radiotherapy triggers an antitumor response when it does not target healthy tissue

Interferon-Alpha to Treat Uterine Fibroids

Interferon irreversibly reduces the size of fibroids, preserving fertility

Physical Activity Suppresses Cancer

During exercise, muscles release molecules that slow down the progression of cancer

Type I Interferons Prevent UV-Induced Skin Cancer

Type I interferons stimulate repair of DNA damage and counter suppression of skin immune

Microbiota to Defeat Cancer: Intestinal Bacteria Regulate The Anti-Cancer Response in The Tumor Microenvironment

Microbiota triggers the production of interferon by monocytes, activating anti-tumor immunity

Type I Interferon Accelerates Liver Regeneration After Injury

The role of interferon in the recovery of hepatocytes and the development of hepatocellular carcinoma

Tumor secretes vesicles that suppress the protective response of interferon

To stop the absorption of tumor vesicles means to block the development of metastases

Type I interferons control obesity and cancer

Dual role of endogenous interferon in the control of tumor growth and obesity

Treatment of follicular lymphoma with tumor injections of dendritic cells treated with interferon-α2b

Clinical trial, Phase 1

Interferons in a fight with cancer

How interferon works in cancer

Immunotherapy complication: cytokine release syndrome

Blocking the increasing production of catecholamines reduces inflammatory damage and mortality