toll-like receptors tagged posts

Engineers design nanoparticles that stimulate the immune system, helping it to attack tumors. MIT engineers have now come up with a way to boost the effectiveness of one type of cancer immunotherapy. They showed that if they treated mice with existing drugs called checkpoint inhibitors, along with new nanoparticles that further stimulate the immune system, the therapy became more powerful than checkpoint inhibitors given alone. This approach could allow cancer immunotherapy to benefit a greater percentage of patients, the researchers say.

“These ...

Schematic and characterization of tri-agonist compound, Indole_Lox_CpG. (a) Chemical structure of covalently conjugated tri-agonist compound (Indole_Lox_CpG) (left). Diagram illustrating how each TLR agonist (pyrimido-indole, loxoribine, or CpG-ODN) and the corresponding combinations (Indole_Lox, Lox_CpG, or Indole_CpG) contributed to innate immune activation (right). (b) Confirmation of synthesized Indole_Lox_CpG via MALDI-TOF. (c) Analysis of Indole_Lox_CpG via gel electrophoresis: CpG-ODN1826 reference (lane 1) and Indole_Lox_CpG reaction mixture (lane 2). Tri-agonist was extracted from the gel and isolated as purified Indole_Lox_CpG.

Some vaccines, like the flu shot, contain a dead or weakened version of the disease-causing pathogen...

The immune system protein SARM1 (red) extends to the string-like fibers (axons) of nerve cells in the brains of mice infected with La Crosse virus. Scientists are examining how SARM1 interacts with mitochondria in the axons to induce death of the nerve cells. Credit: NIAID

Many brain disorders involve the death of neurons, or nerve cells, but how these neurons die is not well understood. A new study describes how the activation of normally protective immune responses causes nerve cells to die and identifies the protein responsible, providing a potential target for therapeutic intervention.

Researchers from NIH’s National Institute of Allergy and Infectious Diseases (NIAID) studied the effect of immune system proteins: toll-like receptors on neurons...

“We know from previous research that macrophages are versatile, and signals at the injury site can stimulate repair or destruction–or confusingly, both,” said John Gensel Ph.D., Assistant Professor of Physiology in the Spinal Cord and Brain Injury Research Center at the University of Kentucky. “But the mechanisms through which these signals stimulate the good and/or bad functions in macrophages are not known. So the next big question to answer in the efforts to understand and treat SCI was, ‘Why?'”

Gensel and Popovich looked at more than 50 animals with spinal cord injury to try to identify which macrophage receptors promoted neuronal repair and which directed the destructive process...