The human body contains more bacteria than human cells. Most of these bacteria exist in the gut, which is the most densely populated ecosystem known today, where their genes (microbiome) complements our own genome with 1000-fold more genes.

A clearer picture of how the classic diabetes medication metformin works has emerged. A recent study indicates that the clinical effect - control of blood glucose - is achieved through modulation of the gut microbiota.

"It is fascinating that it is not entirely clear how metformin works, although it has been used clinically for 60 years", says the lead researcher behind the study published in Nature Medicine.

The research group has previously shown that the gut microbiota is altered in patients with type 2 diabetes and after bariatric surgery. By conducting a clinical study in patients with new onset diabetes, the group could clarify how the gut microbiomeis affected by metformin.

Sequencing of the microbiome of 22 patients before and after treatment compared with a placebo treated group of patients showed that the gut microbiome was altered dramatically within two months of treatment. Through experiments in the laboratory, the researchers demonstrated that metformin increases the growth of several bacterial species that are linked to improved metabolism.

"Transplantation of the gut microbiota from patients before and after treatment to bacteria-free mice showed that the metformin-modified microbiota may at least partially explain the good effects of metformin on blood glucose control", says the lead researcher.

By directly investigating metformin–microbiota interactions in a gut simulator, authors show that metformin affected pathways with common biological functions in species from two different phyla, and many of the metformin-regulated genes in these species encoded metalloproteins or metal transporters. 

Some patients with type 2 diabetes can control their disease with metformin, while others are not helped. Perhaps this is due to their microbiome configuration. Moreover, the most common adverse events are intestinal problems such as diarrhoea and abdominal pain.

"Imagine if we can change the intestinal flora in the future so that more people respond to treatment, and that adverse events can be reduced by changing the gut microbiota of patients who will take metformin", concludes the senior author.

http://sahlgrenska.gu.se/english/research/news-events/news-article//the-gut-microbiota-plays-a-key-role-in-treatment-with-classic-diabetes-medication.cid1468945

http://www.nature.com/nm/journal/vaop/ncurrent/full/nm.4345.html