x
Black Bar Banner 1
x

Alert!  New Secured Wallets are installed! new Blog system with AI  power and auto blog curation coming soon  Alert! 

Ads by Markethive - View All
Blogs
The Blog Feed
Write a New Blog Post
Search Blog Status
Most Viewed
Most Recent
Most Shared
Alphabetical
Blog Main Menu
Markethive Blog (default)
All Blogs
My Blog Posts
Friends' Blogs
Blog Categories
All
Advertising
Blockchain & Cryptocurrency
Business Development
Diet & Weight Loss
Environmental
Health and Wellness
History and Culture
Home and Garden
Marketing
Mentoring & Training
Money & Finance
Other
Political
Prayer & Religion
Programming & Technical
Real Estate
Search Engine Optimization
Social Media
Spirituality
Sports & Recreation
Transport
Travel & Events
Website Design
Blogging Tools & Assets
My Blog Info
Members Subscribed to You
Blogs You Are Subscribed To
Website Widget
Wordpress Plugin

Altered gut microbiota increases production of molecules that may contribute to type 2 diabetes

Posted by Bobby Brown on August 23, 2021 - 11:25am


It is the bacterial changes in the gut that increase the levels of imidazole propionate, the molecule that makes the body's cells resistant to insulin in type 2 diabetes. This result emerges from a European study, MetaCardis.

The gut and its bacteria are considered important in many diseases and several studies have shown that the gut microbiota affects the breakdown of several different parts of our diet. In previous research on gut microbiota and type 2 diabetes, the focus has often been on butyric acid-producing dietary fibers and their possible effects on blood sugar regulation and insulin resistance.

In previous research led by Fredrik Bäckhed, Professor of molecular medicine at the University of Gothenburg, demonstrated that diabetes can be linked to a changes in the composition of intestinal bacteria, which increases the production of molecules that may contribute to the disease.

His group has shown that the altered intestinal microbiota leads to altered metabolism of the amino acid histidine, which in turn leads to increased production of imidazole propionate, the molecule that prevents the blood sugar lowering effects of insulin.

An article published in the journal Nature Communications now confirms the initial findings in a large European study with 1,990 subjects, which shows that patients with type 2 diabetes from Denmark, France and Germany also had increased levels of imidazole propionate in their blood.

Our study clearly shows that imidazole propionate is elevated in type 2 diabetes in other populations as well. The study also shows that the levels of imidazole propionate are elevated even before the diabetes diagnosis is established, in so-called prediabetes. This may indicate that imidazole propionate may contribute to disease progression."
Fredrik Bäckhed, Professor of Molecular Medicine, University of Gothenburg

 

The altered gut microbiota observed in people with type 2 diabetes has fewer species than normal glucose tolerant individuals, which is also linked to other diseases. The researchers speculate that this leads to an altered metabolism of the amino acid histidine.

The EU-funded research collaboration MetaCardis has been led by Karine Clément, Professor of Nutrition at Sorbonne University and Assistance Publique Hôpitaux de Paris, a direction of an INSERM group in Paris.

"Interestingly enough, our findings suggest that it is the altered intestinal microbiota rather than the histidine intake in the diet that affects the levels of imidazole propionate". She continuous:

"An unhealthy diet also associates with increased imidazole propionate in individuals with type 2 diabetes".

One problem with research on microbiota and various diseases has been limited reproducibility. By studying the products that the bacteria produce, the metabolites, one focuses on the function of the bacteria rather than on the exact species in the intestine. Fredrik Bäckhed:

"The collaboration gave us unique opportunities to confirm preliminary findings that imidazole propionate can be linked to type 2 diabetes. Here we had the opportunity to analyze almost 2,000 samples and can thus determine that elevated levels of imidazole propionate can be linked to type 2 diabetes. As the levels are elevated even in prediabetes, imidazole propionate may also cause the disease in some cases, he says.