Photobiology Clinical Trial
Official title:
Placebo-controlled Assessment of the Effect of a Food Supplement on Skin Protection After Exposure to UV Radiation
A probiotic bacterial strain was tested in a randomized, double blind , placebo controlled clinical trial with 54 healthy male volunteers. Half the volunteers received the dietary supplement the other half placebo during 6 weeks prior to exposure to solar-simulated UV irradition (2x1,5MED). Blister roofs and skin biopsies were recovered 1, 4 and 10 days after UV exposure from unirradiated and irradiated skin and used for immunohistochemical analysis and mixed epidermal cell lymphocyte reaction
Langerhans cells (LC), the dendritic cells (DC) from epidermis, constitute the first line of
immune defense against environmental attacks. Under steady state conditions, LC turnover is
very low. The LCs reside in the epidermis in an immature state and can be distinguished from
other epidermal cells by their surface expression of HLA-DR, CD1a and langerin. Upon
stimulation by inflammatory mediators LCs are activated and acquire CCR7 expression, the
chemokine receptor for CCL21 that mediates their migration to lymph nodes. Moreover,
activated LCs display a mature phenotype characterized by increased expression of
co-stimulatory molecules and acquisition of maturation markers that facilitate their
interaction with T-cells and aid in the elicitation of the immune response.
It has long been known that, in addition to being carcinogenic via DNA damage and mutations,
solar UV radiation induces local and systemic immune suppression which represents a major
risk for skin cancer induction and progression in sun-exposed areas. The process is mostly
related to direct LC damage through induction of apoptosis and impairment of
antigen-presenting function. Moreover, UV radiation elicits an inflammatory response and
subsequent recruitment of immune cells, including CD36+ monocytic cells. These cells
colonize the epidermis in the days following UV exposure and are the major source of
immunosuppressive cytokines such as IL-10. All these mechanisms ultimately lead to impaired
cell-mediated reactions and establishment of immune tolerance.
Nutritional intervention, particularly with dietary antioxidants and vitamins, has been
proposed to protect against UV-induced skin damage and to a certain extent skin cancer
occurrence. In recent years, there has been an increasing interest for probiotics, defined
as live microorganisms which, when consumed in adequate amounts, confer a health benefit
upon the host. Particular focus has been on species of lactic acid bacteria including
Lactobacilli and Bifidobacteria that are part of the natural human intestinal microbiota.
Indeed, it is well documented that the endogenous intestinal microbiota plays a crucial role
in immune maturation, gut integrity and defense against pathogens. Recently, it has been
shown that some probiotic bacteria possess the ability to modulate the immune system at both
the local and systemic levels and thereby improve immune defense mechanisms and/or
down-regulate immune disorders such as intestinal inflammations or allergies.
The Probiotic used as the dietary supplement, was isolated from healthy adult microbiota and
was shown to have a strong anti-pathogenic activity against a wide range of
entero-pathogens. Furthermore, a pre-clinical study demonstrated that it can maintain the
epidermal LC density.
Here, we analyzed, in a randomized double blind, placebo controlled, clinical trial, whether
this dietary supplement could also modulate the cutaneous immune homeostasis after
solar-simulated UV exposure in humans.For this purpose, we analyzed whether this dietary
supplement could interfere with LC allostimulatory function and activation/maturation
phenotypic status of skin DC, after solar-simulated UV irradiation.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double-Blind, Primary Purpose: Treatment
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