Lifestyle
Obesity Could Lead to Inflammation
Oct
Researchers are attempting to uncover the basics of how fat tissue is structured and, specifically, inflammation associated with obesity, in the hopes of unlocking the connection between the accumulation of fat and poor health outcomes.
A new study from Lindsey Muir, Ph.DPh.D. and their colleagues uses single cell analysis of gene expression combined with spatial transcriptomics to reveal previous unrecognized immune cell types and interactions within adipose tissue.
To better understand the types of immune cells within adipose tissue and where they are in relation to each other in obesity, the team fed mice a high fat diet over the course of 14 weeks, collected fat tissue, and then used single cell and spatial analyses to produce a read out of all the mRNAs present in the sample.
They discovered something surprising about the samples’ population of macrophages, an immune cell whose job it is to clean up dead cells and debris.
“We knew going in that macrophages would likely have multiple subtypes… what surprised us were the numbers that came out that were highly different from each other and coming up at different times and becoming more dominant over time.”
They identified five types, which they named Mac1, 2, 3, 4, and 5. Mac1 were resident to the tissue in both lean mice on a normal diet and obese mice. Mac2 and Mac3, which were identified by their pro-inflammatory genes, peaked after 8 weeks of the high-fat diet.
However, as the high-fat diet progressed to 14 weeks, Mac4 and Mac5 cells, which had low pro-inflammatory gene expression, predominated, while pro-inflammatory Mac2 and Mac3 cells decreased.
Muir’s hypothesis is that Mac4 and Mac5 are the lipid associated macrophages (LAMs) described in her own prior work and by other researchers and may be a sign of the body attempting to quell a damaging level of inflammation from pro-inflammatory macrophages and dying adipocytes.
Next, painstakingly careful sectioning of fresh frozen fat tissue enabled analysis by spatial transcriptomics. Each analysis spot in the spatial method has a unique barcode that attaches to the mRNA in the tissue on top of that spot, so gene expression can later be mapped to specific locations in the tissue using the barcodes as coordinates. In this method, the sections are also imaged just prior to collection of mRNA. The study examined these images looking for tell-tale markers called crown-like structures — structures that are associated with insulin resistance.
“Once crown-like structures appear, it takes them a long time to go away and their appearance indicates tissue dysfunction,” noted Muir. “Using image processing, we identified based on the density of these regions what was likely to be a crown-like structure and then went in to verify that we could see them visually,” said Muir. These structures had gene expression indicating the presence of Mac4 and Mac5 LAMs.
With more insight into the cellular makeup and spatial organization of fat tissue in the context of obesity, the next step, Muir said, is to examine the signaling processes and proteins associated with the development of LAMs and metabolic disorders.
Sources:
Cooper M. Stansbury, Gabrielle A. Dotson, Harrison Pugh, Alnawaz Rehemtulla, Indika Rajapakse, Lindsey A. Muir. A lipid-associated macrophage lineage rewires the spatial landscape of adipose tissue in early obesity. JCI Insight, 2023; 8 (19) DOI: 10.1172/jci.insight.171701
Michigan Medicine – University of Michigan. “Obesity leads to a complex inflammatory response inside fat tissue.” ScienceDaily. ScienceDaily, 10 October 2023. <www.sciencedaily.com/releases/2023/10/231010182936.htm>.
Materials provided by Michigan Medicine – University of Michigan. Original written by Kelly Malcom. Note: Content may be edited for style and length.
Images from:
Photo by Christopher Williams
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