The study reveals that decreased CX3CL1 expression and reduced steroid hormone responsiveness in older mice may underlie age-related brain aging and could guide new treatments. New research reveals ...

There was another key finding: when the researchers looked at the mice’s genome (their gene blueprint), they found that the protein cytokine CX3CL1 – which regulates inflammation in the body ...

This fat releases a protein called CX3CL1, which in turn helps produce brain-derived neurotrophic factor (BDNF)—a protein that helps nerve cells survive and grow. We also spoke to ...

The researchers found that belly fat communicates with the brain via chemical signals. One of these influential messengers is a protein called CX3CL1, tasked with preserving memory and cognitive ...

The study found that CX3CL1, a protein produced by visceral fat, actively contributes to maintaining healthy BDNF levels. Researchers tracked male mice of different ages, roughly equivalent to ...

Here’s where belly fat comes in. This new study found that CX3CL1, a protein made by visceral fat, plays a big role in maintaining healthy BDNF levels. In younger mice, their belly fat produced plenty ...

Once these cells get stuck, they make arterial inflammation worse. The researchers found a particular immune messenger called CX3CL1 that played a big part in trapping these immune cells. “Because ...

Researchers linked elevated insulin levels to arterial plaque buildup, known as atherosclerosis, and found that the immune signal CX3CL1, triggered by insulin, plays a role in trapping immune cells ...

A new study reveals a novel connection between aging of visceral adipose tissue and brain health. These findings are published in GeroScience. The research shows that the visceral adipose tissue ...

This, in turn, upregulates CX3CL1, an immune signal that attracts inflammatory cells, exacerbating arterial plaque formation.” After 4 weeks of the aspartame diet, the mice started to develop ...

Higher levels are often associated with type 2 diabetes. It also found that an inflammatory protein such as CX3CL1, which can contribute to atherosclerosis, was found. Mice lacking the receptor fo ...

The researchers also identified an inflammatory protein called CX3CL1, in the aorta of mice, which may contribute to atherosclerosis through inflammation of the blood vessel wall. In mice lacking the ...