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Metformin is commonly used as the first line of medication for the treatment of metabolic syndromes, such as obesity and
type 2 diabetes (T2D). Recently, this compound has gained an increasing interest within the scenario of pro-longevity
medicine given also its peculiar increase in AMP-activated protein kinase (AMPK) thus beneficially affecting energy balance
by maintaining a proper cellular AMP/ATP ratio through the increase of ATP consumption and decreasing ATP production,
which is associated with AMPK activation. The gut microbiota is known to play an important role in harvesting energy
from food, metabolic processes and immune modulation. An increasingly body of evidences proves that its composition is
significantly associated with obesity, T2D, metabolic syndromes and other chronic diseases. Data show that when metformin
is administered to high fat diet (HFD) animals, the composition of the phylum Bacteroidetes significantly increases (over
75%) similar to that in the normal diet-(ND)-fed animals. Moreover, the composition of Verrucomicrobia in the HFDMet
group significantly increases, unlike what obtained by simple dietary change applied to HFD. In the HFD-Met group, the
abundances of the families Bacteroidaceae, Verrucomicrobiaceae, and some specific Clostridia change significantly vs. those
in the HFD and HFD-ND groups. Interestingly, metformin treatment also affects the composition of the gut microbiota in mice
fed a ND. The families Rikenellaceae, Ruminococcaceae, and Verrucomicrobiaceae, as well as Alistipes spp., Akkermansia
spp., and Clostridium spp., are more abundant in the ND-Met group than the ND group. All this is shedding new light on
the AMPK-independent pathway of metabolic improvement by metformin treatment through targeting the microbiota. It is
likely that metformin via changes in Akkermansia and lactobacilli bacteria regulation improves the metabolic profile of dietinduced
obesity by ameliorating low-grade tissue inflammation and also up-regulating the intestinal expression of several
endocannabinoids controlling inflammation, barrier function and peptide secretion in the gut. Till recently, a main hindrance in
bacterial stool culture is represented by the major bias that only a few gut bacteria can be properly detected and cultivated in the
laboratory. On the other hand, capillary sequencing or PCR-based approaches need culture medium with its inner complexities
of multiple separate analyses. In this scenario, a rising star is represented by the next-generation sequencing (NGS) which by
combining multiple samples in a sequencing run, is able to analyse the entire microbial community within a sample. Thus,
this unique ability enables to catalog resident organisms within the very complex gut poly-microbial bacterial communities to
make a DNA-stable sampling and producing a report intelligible to physicians and ideally endowed with a nutritionist and a
gastroenterologist commented interplay so to make it a valid diagnostic, a treatment-guided result and a follow up tool as well.
This has been quite recently achieved by a spin off dedicated geneticists and biologists (Next Genomics, Prato, Italy) using a
kit allowing small and 14-day stable sampling of 0,0001% accuracy. This test is currently used also in clinical center (MMC
Milano, Milan, Italy) identifying the enterotype and the presence of bacterial species correlated with diseases.
Biography
Francesco Marotta completed his MD and PhD with experience in Gastroenterology, Oxidative Stress, Aging and Nutrigenomics in USA, Cape-Town and Japan leading to extensive publications. He is a Research Professor in Department of Nutrition, Texas Women University, USA. He is in Advisory Board Panel of the Center for Life Science at Nazarbayev University, Kazakhstan and he is an External Examiner at McGill University, Canada and Osaka University, Japan. Currently, he serves as CMO at Milano Medical Center for Healthy Aging and also at a prime international clinical set up in central-Asia.