Protection against enteric salmonellosis in transgenic mice expressing a human intestinal defensin

Abstract

Genetically encoded antibiotic peptides are evolutionarily ancient and widespread effector molecules of immune defence^1,2,3. Mammalian defensins, one subset of such peptides, have been implicated in the antimicrobial defence capacity of phagocytic leukocytes and various epithelial cells⁴, but direct evidence of the magnitude of their in vivo effects have not been clearly demonstrated. Paneth cells, specialized epithelia of the small intestinal crypt, secrete abundant α-defensins and other antimicrobial polypeptides^5,6 including human defensin 5 (HD-5; also known as DEFA5)^7,8,9. Although antibiotic activity of HD-5 has been demonstrated in vitro^9,10, functional studies of HD-5 biology have been limited by the lack of in vivo models. To study the in vivo role of HD-5, we developed a transgenic mouse model using a 2.9-kilobase HD-5 minigene containing two HD-5 exons and 1.4 kilobases of 5′-flanking sequence. Here we show that HD-5 expression in these mice is specific to Paneth cells and reflects endogenous enteric defensin gene expression. The storage and processing of transgenic HD-5 also matches that observed in humans. HD-5 transgenic mice were markedly resistant to oral challenge with virulent Salmonella typhimurium. These findings provide support for a critical in vivo role of epithelial-derived defensins in mammalian host defence.