Three endogenous mechanisms have emerged as potential candidates to acidify either whole stratum corneum (SC) or pH within more localized membrane domains: a) free fatty acid (FFA) generation from phospholipid (PL) hydrolysis, b) a non-energy-dependent sodium/proton membrane antiporter, NHE1, and c) urocanic acid (UCA) generation from histidine. By regulating pH, these mechanisms could regulate three key SC functions. The importance of pH for permeability barrier homeostasis is suggested by the delay in barrier recovery that occurs when perturbed skin is exposed to a neutral pH. pH could influence barrier function through regulation of extracellular lipid processing, because two of the hydrolytic enzymes exhibit acidic pH optima (b-glucocerebrosidase and acid sphingomyelinase), while two others (group 1 secretory phospholipase A2 and steroid sulfatase), display neutral-to-alkaline pH optima. Integrity/cohesion, which is inversely related to desquamation, represents a second possible pH-dependent SC function, regulated by two serine proteases: the SC chymotryptic (SCCE) and tryptic (SCTE) enzymes. Since SCCE and SCTE exhibit neutral-to-alkaline pH optima, they are likely to be active in the lower SC (=stratum compactum), and they probably increase in pathological skin, which is characterized by increased pH. Finally, an acidic SC pH could also restrict cutaneous inflammation. The SC contains precursors of both IL-la and IL-lb, which generate their active pro-inflammatory products in response to a variety of external perturbations also potentially mediated by SCCE. Consistent with this hypothesis, the pH of dermatitic (inflamed) skin of all types is typically about one unit higher than the pH of normal SC. In this proposal, we will explore the pH-dependent processes that regulate all three of these key SC functions. We will use a k.o. mutant, and inhibitor-based models, and combinations thereof, to delineate the role of each pathway in SC acidification. Then, we will explore how such pathway influence the three key functions. The information from these studies could lead to entirely new approaches to the therapy of common skin disorders.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR019098-31
Application #
7104315
Study Section
General Medicine A Subcommittee 2 (GMA)
Program Officer
Baker, Carl
Project Start
1979-04-01
Project End
2008-06-30
Budget Start
2006-07-01
Budget End
2008-06-30
Support Year
31
Fiscal Year
2006
Total Cost
$360,512
Indirect Cost
Name
Northern California Institute Research & Education
Department
Type
DUNS #
613338789
City
San Francisco
State
CA
Country
United States
Zip Code
94121
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Xin, Shujun; Mauro, Jacqueline A; Mauro, Theodora M et al. (2014) Ten-year publication trends in dermatology in mainland China. Int J Dermatol 53:e438-42
Man, George; Mauro, Theodora M; Kim, Peggy L et al. (2014) Topical hesperidin prevents glucocorticoid-induced abnormalities in epidermal barrier function in murine skin. Exp Dermatol 23:645-51
Man, Mao-Qiang; Lin, Tzu-Kai; Santiago, Juan L et al. (2014) Basis for enhanced barrier function of pigmented skin. J Invest Dermatol 134:2399-2407
Elias, Peter M; Gruber, Robert; Crumrine, Debra et al. (2014) Formation and functions of the corneocyte lipid envelope (CLE). Biochim Biophys Acta 1841:314-8

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