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MuscleChemistry
Very interesting what TUDCA is being used for!
By TASNIM AHMED and EMMA C. COBB, CONTRIBUTING WRITERS December 2, 2013
In a recent study conducted by the Hotamisligil Laboratory at the Harvard School of Public Health, a group of scientists discovered that a naturally occurring molecule called TUDCA, or Tauroursodeoxycholic acid, could prevent Type 1 Diabetes.
Feyza Engin, lead author of the study, said that she and her team sought to understand the role of endoplasmic reticulum, an organelle that synthesizes and modifies proteins, stress in the onset of diabetes. According to Engin, high levels of stress incapacitate endoplasmic reticulum, or ER, functioning by disrupting proper protein folding in insulin-producing beta cells, which eventually results in Type 1 Diabetes.
“The reason the study is getting a lot of attention is because [Type 1 Diabetes] is an autoimmune disease...but in this study we focused on the beta cells,” said Engin, who is also a research associate in the genetics department at the School of Public Health.
In patients with Type 1 Diabetes, beta cells are attacked by the body’s own immune system, so that the body can no longer create the necessary amount of insulin. However, Gokhan S. Hotamisligil, senior author of the study, said that the body’s autoimmune response is not enough to cause Type 1 Diabetes.
Hotamisligil, who is also the chair of the genetics department at the School of Public Health, said there must be something else that makes beta cells susceptible to the attack.
“We found that an organelle, ER, seems to exhibit signs of dysfunction in the course of diabetes,” he said.
Drawing on information from the lab’s earlier studies on Type 2 Diabetes, the researchers decided to administer a naturally occurring molecule, TUDCA, which they had found reduced ER stress in cases of Type 2 Diabetes. Researchers discovered that when TUDCA was administered to mice, it enhanced ER function and was able to prevent Type 1 Diabetes.
Although the use of a molecule like TUDCA would not be able to cure Type 1 Diabetes in those who already have it, this study has implications for those who are at risk for Type 1 Diabetes or have been recently diagnosed with the disease.
“I want to look at the big picture and tackle this question in a more detailed way using genetic and cellular biology techniques,” said Engin.
Both Engin and Hotamisligil said that TUDCA has yet to be tested on individuals, but since the chemical has already been approved for human use, it is possible that tests will begin in the near future.
By TASNIM AHMED and EMMA C. COBB, CONTRIBUTING WRITERS December 2, 2013
In a recent study conducted by the Hotamisligil Laboratory at the Harvard School of Public Health, a group of scientists discovered that a naturally occurring molecule called TUDCA, or Tauroursodeoxycholic acid, could prevent Type 1 Diabetes.
Feyza Engin, lead author of the study, said that she and her team sought to understand the role of endoplasmic reticulum, an organelle that synthesizes and modifies proteins, stress in the onset of diabetes. According to Engin, high levels of stress incapacitate endoplasmic reticulum, or ER, functioning by disrupting proper protein folding in insulin-producing beta cells, which eventually results in Type 1 Diabetes.
“The reason the study is getting a lot of attention is because [Type 1 Diabetes] is an autoimmune disease...but in this study we focused on the beta cells,” said Engin, who is also a research associate in the genetics department at the School of Public Health.
In patients with Type 1 Diabetes, beta cells are attacked by the body’s own immune system, so that the body can no longer create the necessary amount of insulin. However, Gokhan S. Hotamisligil, senior author of the study, said that the body’s autoimmune response is not enough to cause Type 1 Diabetes.
Hotamisligil, who is also the chair of the genetics department at the School of Public Health, said there must be something else that makes beta cells susceptible to the attack.
“We found that an organelle, ER, seems to exhibit signs of dysfunction in the course of diabetes,” he said.
Drawing on information from the lab’s earlier studies on Type 2 Diabetes, the researchers decided to administer a naturally occurring molecule, TUDCA, which they had found reduced ER stress in cases of Type 2 Diabetes. Researchers discovered that when TUDCA was administered to mice, it enhanced ER function and was able to prevent Type 1 Diabetes.
Although the use of a molecule like TUDCA would not be able to cure Type 1 Diabetes in those who already have it, this study has implications for those who are at risk for Type 1 Diabetes or have been recently diagnosed with the disease.
“I want to look at the big picture and tackle this question in a more detailed way using genetic and cellular biology techniques,” said Engin.
Both Engin and Hotamisligil said that TUDCA has yet to be tested on individuals, but since the chemical has already been approved for human use, it is possible that tests will begin in the near future.
