Connecting the dots between insulin resistance, unhealthy blood vessels and cancer
Joslin Diabetes Center News May 24, 2017
Animal studies examine risk factors that may overlap between colorectal cancer and cardiovascular disease.
The Joslin team found that intestinal tumors grow just as quickly in a mouse cancer model whose Âepithelial cells lining the inside of the intestine have been genetically modified so that insulin canÂt activate the cells. A second surprise came when the investigators discovered that such tumors grow more quickly in mice when cells in blood vessels surrounding the intestine were genetically modified in the same way.
The research highlights biological mechanisms driven by insulin resistance that impair blood vessel health and may be shared by both cancer and cardiovascular disease, says Christian Rask–Madsen, MD, PhD, a Joslin assistant investigator, an assistant professor at Harvard Medical School and corresponding author on a paper describing the work in the journal Oncogene.
The study was a collaboration between the labs of Rask–Madsen and C. Ronald Kahn, JoslinÂs chief academic officer. Years ago, the Kahn lab pioneered techniques to genetically modify given cell types to Âknock out the insulin receptor protein on the cell surface, which activates insulinÂs actions in the cell, thus creating a state of insulin resistance just in these cells.
In a first set of experiments, postdoctoral researcher and co–lead author Max–Felix Häring found that insulin increased the proliferation of mouse epithelial tumor cells in culture, as expected. But when he and his co–workers created mice modified to carry such cells lacking an insulin receptor, the tumors grew at the same rates as in mice with normal epithelial tumor cells.
That paradox raised questions about the role of insulin signaling among other cells in the tumor microenvironment that surrounds the cancer cells, says Rask–Madsen. So Xuanchun Wang, a postdoctoral researcher and co–lead author on the paper, followed up by generating mice lacking the insulin receptor in Âvascular endothelial cells (which line blood vessels).
Knowing that insulin can stimulate the growth of blood vessels, Âour expectation was that knocking out insulin signaling in these cells might slow the growth of blood vessels and reduce tumor formation in these mice, Rask–Madsen says. ÂBut we saw the opposite – an increase in tumor formation.Â
In earlier work as a postdoctoral researcher in the lab of George King, MD, JoslinÂs chief scientific officer, Rask–Madsen studied the links between insulin resistance and arterial disease. This research helped to show that insulin resistance in vascular endothelial cells can create a pro–inflammatory state marked by the heightened presence of certain cell adhesion proteins that make immune cells stick to endothelial cells, the first step in enabling the immune cells to travel from the blood stream to tissues.
Now applying the concept to tumor formation, Rask–Madsen and his colleagues discovered similar signs of a pro–inflammatory state in the mice with insulin receptors knocked–out in vascularThe Joslin team found that intestinal tumors grow just as quickly in a mouse cancer model whose Âepithelial cells lining the inside of the intestine have been genetically modified so that insulin canÂt activate the cells. A second surprise came when the investigators discovered that such tumors grow more quickly in mice when cells in blood vessels surrounding the intestine were genetically modified in the same way.
The study was a collaboration between the labs of Rask–Madsen and C. Ronald Kahn, JoslinÂs chief academic officer. Years ago, the Kahn lab pioneered techniques to genetically modify given cell types to Âknock out the insulin receptor protein on the cell surface, which activates insulinÂs actions in the cell, thus creating a state of insulin resistance just in these cells.
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The Joslin team found that intestinal tumors grow just as quickly in a mouse cancer model whose Âepithelial cells lining the inside of the intestine have been genetically modified so that insulin canÂt activate the cells. A second surprise came when the investigators discovered that such tumors grow more quickly in mice when cells in blood vessels surrounding the intestine were genetically modified in the same way.
The research highlights biological mechanisms driven by insulin resistance that impair blood vessel health and may be shared by both cancer and cardiovascular disease, says Christian Rask–Madsen, MD, PhD, a Joslin assistant investigator, an assistant professor at Harvard Medical School and corresponding author on a paper describing the work in the journal Oncogene.
The study was a collaboration between the labs of Rask–Madsen and C. Ronald Kahn, JoslinÂs chief academic officer. Years ago, the Kahn lab pioneered techniques to genetically modify given cell types to Âknock out the insulin receptor protein on the cell surface, which activates insulinÂs actions in the cell, thus creating a state of insulin resistance just in these cells.
In a first set of experiments, postdoctoral researcher and co–lead author Max–Felix Häring found that insulin increased the proliferation of mouse epithelial tumor cells in culture, as expected. But when he and his co–workers created mice modified to carry such cells lacking an insulin receptor, the tumors grew at the same rates as in mice with normal epithelial tumor cells.
That paradox raised questions about the role of insulin signaling among other cells in the tumor microenvironment that surrounds the cancer cells, says Rask–Madsen. So Xuanchun Wang, a postdoctoral researcher and co–lead author on the paper, followed up by generating mice lacking the insulin receptor in Âvascular endothelial cells (which line blood vessels).
Knowing that insulin can stimulate the growth of blood vessels, Âour expectation was that knocking out insulin signaling in these cells might slow the growth of blood vessels and reduce tumor formation in these mice, Rask–Madsen says. ÂBut we saw the opposite – an increase in tumor formation.Â
In earlier work as a postdoctoral researcher in the lab of George King, MD, JoslinÂs chief scientific officer, Rask–Madsen studied the links between insulin resistance and arterial disease. This research helped to show that insulin resistance in vascular endothelial cells can create a pro–inflammatory state marked by the heightened presence of certain cell adhesion proteins that make immune cells stick to endothelial cells, the first step in enabling the immune cells to travel from the blood stream to tissues.
Now applying the concept to tumor formation, Rask–Madsen and his colleagues discovered similar signs of a pro–inflammatory state in the mice with insulin receptors knocked–out in vascularThe Joslin team found that intestinal tumors grow just as quickly in a mouse cancer model whose Âepithelial cells lining the inside of the intestine have been genetically modified so that insulin canÂt activate the cells. A second surprise came when the investigators discovered that such tumors grow more quickly in mice when cells in blood vessels surrounding the intestine were genetically modified in the same way.
The study was a collaboration between the labs of Rask–Madsen and C. Ronald Kahn, JoslinÂs chief academic officer. Years ago, the Kahn lab pioneered techniques to genetically modify given cell types to Âknock out the insulin receptor protein on the cell surface, which activates insulinÂs actions in the cell, thus creating a state of insulin resistance just in these cells.
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