In a new study published in Nature Neuroscience this week, researchers in the Ann Romney Center for Neurologic Diseases at Brigham and Women's Hospital (BWH) investigate how genetic risk factors for Alzheimer's disease may influence
a key type of immune cell.
The same area has a known role in the development of T - cells,
a key type of immune cell.
Not exact matches
CRAC channels are found on many
cell types, including
immune cells and pancreatic acinar
cells, where aberrant activation
of these channels is thought to play a
key role in the pathobiology
of acute pancreatitis.
A few years ago, MS researchers were focused on a new
type of immune cell called the Th - 17
cell, which appeared to be a
key player in driving the neuronal damage in MS. Because Th - 17
cells produce the cytokine IL - 17, researchers likewise thought this chemical was essential to the disease.
This result reflected earlier findings that ILC and T
cell subclasses produce similar sets
of cytokines, but also revealed differences in how the two
cell types control the activities
of these
key immune response genes.
Key elements
of the
immune system, they also have the ability to turn into several
cell types after having passed the endothelial barrier, in order to fulfil different functions depending on the tissue.
Immunity is
key to long - term responses Knowing that the
immune system is capable
of recognizing distinctive features
of cancer
cells and launching a T
cell attack against those tumor antigens, and that checkpoint blockade removes a roadblock to that attack, it's logical that these drugs should work against many tumor
types.
NK
cells are a
key part
of the innate
immune system with the ability to recognize and kill diverse
types of tumor
cells, including ovarian cancer.
B
cell immunodeficiencies (adaptive)-- B
cells are one
of two
key cell types of the adaptive
immune system.
T
cell immunodeficiencies (adaptive)-- T
cells are the second
of two
key cell types of the adaptive
immune system.