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Skin barrier function and the microbiome

$348,750R01FY2017AINIH

University Of California, San Diego, La Jolla CA

Investigators

Linked publications & trials

Abstract

? DESCRIPTION (provided by applicant): The surface commensal microbial community has been shown to influence the function and development of the immune system, thus potentially participating in the pathophysiology of several important diseases of the skin, gut, kidney and lung. With increased appreciation that normal microbial communities exist in equilibrium with, and in many cases benefit the host, recent work has sought to better understand the mechanisms by which we permit survival of our skin commensal microbiome and how the microbiome controls mammalian immune responses. We have discovered that it was wrong to assume that bacteria are normally totally separated from us by the epidermis. Strong evidence now shows that microbial communities are in an equilibrium across the basement membrane zone and populate the dermal stroma of normal skin. These observations show that the surface microbiome can get into the position in direct priming with live cells below the epithelial surface therefore influencing cutaneous immunity. Importantly, the observation that microbes enter the dermis is not evidence for infection, rather this findings show that products made by microbes are communicating with various cell types existing in the dermis. The overall goal of this proposal is to understand mechanisms how microbes breakthrough epidermal barrier to enter the dermis, explore the elements of the skin innate immune barrier that regulate microbial entry into the dermis, and begin to test the hypothesis that microbial entry is a rate-limiting step of induction of immunological responses by skin microbiome. Our aims are as follows: Aim 1: Understand how bacteria break through the skin barrier to enter the dermis. Aim 2: Understand how innate immune barriers control entry of commensal and pathogenic bacteria Aim 3: Determine if the entry of bacteria into the dermis results in an immunological responses. Successful completion of these aims will provide new information regarding control of an important and novel aspect of the functional interaction between microbiome and cutaneous immunity in homeostatic or pathogenic aspects.

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Skin barrier function and the microbiome · GrantIndex