Stem cells derived from distinct sources of fat display different
cell-surface markers — with implications for their roles in metabolism and
disease.
Stem cells derived from different types of fat express
different cell-surface markers
Mesenchymal stem
cells (MSCs) have a natural ability to differentiate into various cell types,
such as muscle, cartilage and bone. They can be classified according to their
source and include adipose-derived stem cells (ASCs) and bone marrow-derived
stem cells (BMSCs). ASCs, in particular, hold tremendous potential for tissue
engineering and regenerative medicine because of their relatively high
abundance and ease of isolation.
Shigeki
Sugii at the A*STAR Singapore Bioimaging Consortium and co-workers have now
isolated ASCs from two different sources of fat: subcutaneous fat found
underneath the skin and visceral fat from inside the abdominal cavity1.
The team showed that ASCs derived from subcutaneous fat express cell-surface
markers that differ from those derived from visceral fat. The finding has
implications for determining the origins of ASCs and the roles of their
different subtypes in metabolism-related conditions, such as obesity, and
diseases such as soft tissue tumors.
Stem
cells, like all other cells, express molecules at their surface that are recognized
by the body’s immune system. Like a fingerprint, the expression profile of
these cell-surface markers is unique to each stem cell type. Scientists already
know that MSCs express the cell-surface markers CD73, CD90 and CD105 but not
CD14, CD19, CD34 and CD45. Recent studies have also shown that while ASCs
express CD36 but not CD106, the opposite is true for BMSCs. Thus, MSCs derived
from different tissues express different cell-surface markers, providing a
valuable tool for determining the origins of MSCs.
Sugii
and co-workers therefore proposed that ASCs derived from different types of fat
may also express different cell-surface markers. To investigate this, they
extracted subcutaneous and visceral fat from 12 obese patients, as well as
normal and obese mice. After isolating ASCs from the fat, the team analyzed the
expression profiles of over 240 cell surface markers for each sample. Their
analysis revealed a high level of CD10 expression in ASCs derived from
subcutaneous fat compared to ASCs derived from visceral fat. In addition, they
detected a high level of CD200 expression in ASCs derived from visceral fat
compared to those derived from subcutaneous fat.
The
researchers also discovered that while CD10-rich ASCs from subcutaneous fat
differentiate better than their CD10-deficient counterparts, CD200-deficient
ASCs from visceral fat differentiate better than their CD200-rich counterparts.
“Our
results suggest that CD10 and CD200 are markers of high and low adipogenic capacities,”
says Sugii. “Therefore CD10 and CD200 are biomarkers as well as indicators of
adipogenic potentials for use in high-throughput drug-screening systems.”
The
A*STAR-affiliated researchers contributing to this research are from the Singapore Bioimaging Consortium and
the Institute of
Molecular and Cell Biology
Reference
- Ong, W. K., Tan,
C. S., Chan, K. L., Goesantoso, G. G., Chan, X. H. D. et al. Identification
of specific cell-surface markers of adipose-derived stem cells from
subcutaneous and visceral fat depots. Stem Cell Reports 2, 172–179
(2014). | article
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