FINDINGS have shown why patients with metabolism-related diseases are at higher risk for aggressive tumours.
Blocking dietary sugar and its activity in tumour cells may reduce cancer risk and progression, according to researchers from the Icahn School of Medicine. The study, conducted in fruit flies and published in the journal Cell, provides insight as to why metabolism-related diseases such as diabetes or obesity are associated with certain types of cancer, including pancreatic, breast, liver, and colon cancers.
Professor of Developmental and Regenerative Biology at Mount Sinai, United States, Dr. Ross Cagan, has developed a cancer model in the fruit fly Drosophila that allows scientists to evaluate diseases in the context of the whole animal and multiple genetic targets, rather than just looking at the connection of one gene to one disease. In the current study, Cagan used fruit flies to understand the effects of diet and insulin resistance on cancer progression.
Cells use glucose for energy and to grow. When a cell becomes insulin resistant, glucose builds up in the blood instead of being absorbed by the cell, starving the cell and leading to metabolic diseases like diabetes. Because of this dysfunctional growth, scientists have been puzzled about how tumours can thrive in an insulin-resistant environment.
“Previous research has established a strong correlation between metabolic diseases and pancreatic, breast, liver, and colon cancers, but we have not determined how tumours grow so aggressively in this environment if they do not have the energy provided by glucose,” said Cagan, who is also associate dean of the Graduate School of Biomedical Sciences at Mount Sinai.
“Using our fruit fly model, we discovered how tumours overcome insulin resistance in the body and turn metabolic dysfunction to their advantage.”
Blocking dietary sugar and its activity in tumour cells may reduce cancer risk and progression, according to researchers from the Icahn School of Medicine. The study, conducted in fruit flies and published in the journal Cell, provides insight as to why metabolism-related diseases such as diabetes or obesity are associated with certain types of cancer, including pancreatic, breast, liver, and colon cancers.
Professor of Developmental and Regenerative Biology at Mount Sinai, United States, Dr. Ross Cagan, has developed a cancer model in the fruit fly Drosophila that allows scientists to evaluate diseases in the context of the whole animal and multiple genetic targets, rather than just looking at the connection of one gene to one disease. In the current study, Cagan used fruit flies to understand the effects of diet and insulin resistance on cancer progression.
Cells use glucose for energy and to grow. When a cell becomes insulin resistant, glucose builds up in the blood instead of being absorbed by the cell, starving the cell and leading to metabolic diseases like diabetes. Because of this dysfunctional growth, scientists have been puzzled about how tumours can thrive in an insulin-resistant environment.
“Previous research has established a strong correlation between metabolic diseases and pancreatic, breast, liver, and colon cancers, but we have not determined how tumours grow so aggressively in this environment if they do not have the energy provided by glucose,” said Cagan, who is also associate dean of the Graduate School of Biomedical Sciences at Mount Sinai.
“Using our fruit fly model, we discovered how tumours overcome insulin resistance in the body and turn metabolic dysfunction to their advantage.”
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