In part 3 of a discussion with Andrew Kuykendall, MD, Moffitt Cancer Center, he talks of rusfertide’s ability to enable patients to live a more viable life and free them from being tethered to the ...

Scientists discovered that inhibiting the enzyme STK17B forces multiple myeloma cells into iron-driven death and makes therapies more effective. Early mouse studies show strong potential for a new ...

Iron is essential for oxygen transport and energy metabolism, yet both deficiency and excess are linked to cardiovascular ...

Problems with iron levels in the blood and the body’s ability to regulate this important nutrient as a result of SARS-CoV-2 infection could be a key trigger for long COVID, new research has discovered ...

A model of Fe homeostasis regulation by MdCML15–MdBT2–MdbHLH104–MdAHA8 in apple trees. When apple roots are exposed to Fe-sufficient conditions, MdCML15 is induced to interact with MdBT2 in the ...

Researchers at Duke University have shown that blocking an enzyme involved in iron regulation not only kills multiple myeloma cancer cells, but also increases the effectiveness of current therapies ...

Researchers at Duke University have shown that blocking an enzyme involved in iron regulation not only kills multiple myeloma cancer cells, but also increases the effectiveness of current therapies ...

Insects rely on a tightly controlled iron metabolism system to support growth, development and immune responses. Central to this process are iron‐binding proteins, such as ferritin and transferrin, ...

Iron plays a critical role in countless bodily functions, yet millions of Americans suffer from deficiency without realizing it. This essential mineral, fundamental to oxygen transport throughout the ...