Korean J Dermatol.  2008 Feb;46(2):196-201.

Regional Variation in the Expression of 'Tight Junction' Protein 'Occludin' in the Epidermis

Affiliations
  • 1Department of Dermatology, Hanyang University College of Medicine, Seoul, Korea. cwlee@hanyang.ac.kr
  • 2Department of Pathology, Hanyang University College of Medicine, Seoul, Korea.

Abstract

BACKGROUND: 'Tight junctions (TJ)' have recently been identified in the granular cell layer of the human epidermis, where they contribute to the normal adhesion between keratinocytes and to the physiologic barrier function of the epidermis. Among the TJ proteins in the epidermis, occludin is an important transmembrane protein, which is considered as a major component among the TJ.
OBJECTIVE
The purpose of this study is to investigate whether regional variation exists in the expression of tight junction protein occludin in normal human epidermis.
METHODS
The immunofluorescence staining for occludin was performed with specimens taken from different areas of normal skin (4 from each of 7 different anatomical sites, including the scalp, face, posterior neck, upper arm, abdomen, lower back, and inner thigh). The degrees of the expression-intensity in each specimen were estimated with the reciprocals of positive end-point titer of occludin in an immunofluorescence study.
RESULTS
The highest degree expression-intensity of the TJ protein occludin among the different areas of normal epidermis was observed on the face and abdomen with a titer of 600. The lowest intensity of expression of occludin was seen in the epidermis from the upper arm. Skin specimens from the scalp, neck, back, and leg demonstrated intermediate degrees of the expression in intensity.
CONCLUSION
The expression of occludin in the skin samples obtained from different locations of the body showed a statistically significant variation. This suggests that there is a certain degree of regional variation in the expression-intensity of TJ protein 'occludin' in the human epidermis.

Keyword

Epidermis; Occludin; Skin barrier; Tight junction

MeSH Terms

Abdomen
Arm
Epidermis
Fluorescent Antibody Technique
Humans
Keratinocytes
Leg
Neck
Occludin
Proteins
Scalp
Skin
Tight Junctions
Occludin
Proteins
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