Team:Paris Bettencourt

The skin is a complex surface and microbiomes are communities of microorganisms developing on living complex surfaces…

The Human Skin: a state-of-the-art multilayer flexible barrier technology

As your primary barrier, your skin or the integumentary system, is an important organ which protects against external hazards such as pathogenic microorganisms, helps retain water and ions, protects your nutritive reserves such as glycogen, fat, and free amino acids from pretty much all the living organisms who would otherwise fester on it, protects your organs from moderate physical aggression, and helps regulate your body temperature. If you were to look at a cross section of your skin, there are three general layers we consider. From the deepest layer to the surface, we have the hypodermis (subcutaneous layer), dermis, and finally, the epidermis. Each layer is composed of specific cell types and structures, thus determining specialized functions. Starting from the bottom, the hypodermis is mostly made up of fat cells and connective tissue, this connects the skin to the deeper muscle fibers. The fat also plays a role in electrically and thermically insulating the body, protecting from physical shock and energy storage. The middle layer, or the dermis is the thick inner layer of the skin that contains nerves, connective tissue, blood vessels, lymph vessels, sebaceous glands and hair follicles. As we will see with some examples of physiopathology, this is the source of immune activity in the advent of infection. Finally, we have the upper layer, the epidermis. This layer of the skin is made up of different layers of cells which have various roles, including providing the material for hair formations, sensing and engulfing foreign pathogens and synthesizing melanin for UV protection (this molecule also gives us our pigment!).

Microbiomes: we may be alone in the universe but not within our own body

You might not feel it, but your body is an ecosystem for millions of microbes. In general, we call living organisms that are too small to see with the naked eye (microscopic), ‘microbes’ or ‘microorganisms. This can refer to fungi, bacteria, or viruses among others. There have been great technological advancements that help scientists study the microbiome and it’s been uncovered that it can play an important role in human health. As an example, the gut microbiome can influence cancer (in some cases by promoting a chronic hyper inflammation), autoimmune disorders (both calming it in some cases through immunosuppressive properties, and promoting in some cases through cross-reactions), certain medications (sometimes neutralizing some medications that are metabolized by some micro-organisms, sometimes activating some pro-drug, again through metabolization by come micro-organisms), and sometimes even being able to influence the behavior of its host, and per example its appetite to make him crave food that the microbes want. There’s a lot left to understand and discover about the entire human microbiome, but we know that we are not alone in our bodies, and that our roommates are important.

Skin microbiome: an ecosystem at the frontier between the human body and its environment

The Human Skin: a petri dish hidden in plain sight

The human skin is a 2m2 aerobic, acidic and dry media, host to a hidden yet manifold amount of life. The human gut microbiome is very well known, and the focus of a lot of attention, but the human skin microbiome is much lesser known but nonetheless key to human health. The human skin microbiome is the ensemble of all the microorganisms living on the human skin, therefore as crazy as it sounds, at the exterior surface of the human body. On which layers of the human skin exactly? Well… all of them! Therefore, you can find microbes throughout all these complex and interesting layers of cells and tissues!

It comprises a majority of bacteria, but also some yeasts, and by extent phages infecting them. The diversity seems to be mainly internal, with about a thousand different species of bacteria living on the skin of a given individual, but about the same overall species when looking at different people. The repartition of the species among a given skin is very heterogenous, in the same way we enjoy certain temperatures and environments, so do our microbes. The humidity, nutrient content and pH of regions are among a few important factors that dictate what kind of microbes we’ll find in different zones on the surface of the skin as well as within layers of the skin. Diversity is as diverse, with an average of about 44 different species on the forearm, but only 15 behind the ear, and so is density with about 107 bacteria / cm2 between toes and on armpits, for only about 102 bacteria/cm2 on forearms and torso. So the microbiome is a very riche and very diverse micro ecosystem of microbiomes that functions in a globally harmless way towards the hosts. But in some instances of skin disease, we can see a complete imbalance in the microbiome composition where certain species are overrepresented in the population than normal and the total diversity is decreased. This is called dysbiosis.

There are various ways to evaluate the kind of microbes that live in the skin. First one needs to take a sample which can be easily done with a swab or scraper for an epidermal sample, or with a biopsy to sample deeper layers. To detect what’s present in the samples, there are microbiological methods such as staining for particular types of microbes or even culturing samples. These are limited because one cannot always detect all the microbes present and because their precision is very, very limited and one cannot be certain to have a certain type or subtype of microorganism, because one cannot compare precisely microorganisms found at different places or different points in time. So, the most popular method that are currently widely used is partial or whole genome sequencing where one extracts the microbes from the samples, and then uses techniques and technology that allows for the reading of the microbial DNA and sometimes RNA. There are certain regions that are very specific to particular families of microbes, and regions who are used as some kind of an “ID card” because they are both different enough from one specie or even sub specie to another, and conserved enough to be able to be sure to find it and to be able to compare results easily. With all these techniques, one can get a good idea of the diversity present where the sample was taken. Using these methods researchers and physicians can associate different skin regions with particular microorganisms and learn more about the role this invisible ecosystem has in human health.

So the human skin is a petri dish fostering many microorganisms, with a considerable diversity, very complex organization, and many implications for the health of its host.