Systemic distribution of apolipoprotein E secreted by grafts of epidermal keratinocytes: implications for epidermal function and gene therapy.

Abstract

In the present study, human apolipoprotein E (apoE) was monitored in the circulation of athymic mice and rats bearing human epidermal grafts. Human apoE was detected in the systemic circulation of graft-bearing animals as long as the graft remained on the animal. Within 24 hr of graft removal, human apoE was not detectable in plasma, indicating that apoE resulted from continuous production of the protein by grafted keratinocytes. These results show that proteins as large as apoE (299 amino acids) traverse the epidermal-dermal barrier and achieve systemic distribution where they may produce effects on distal tissues. The feasibility of using grafts of genetically-altered keratinocytes for the delivery of secreted proteins is clearly reinforced by the demonstration that an epidermally derived protein exhibits systemic distribution. Finally, by virtue of its systemic distribution, apoE produced in a peripheral tissue such as skin, may function in the reverse transport of cholesterol from peripheral tissues to the liver.