2003
DOI: 10.1002/jcp.10429
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Utilizing endocrine secretory pathways in salivary glands for systemic gene therapeutics

Abstract: Mammalian salivary glands are commonly used models of exocrine secretion. However, there is substantial experimental evidence showing the physiological existence of endocrine secretory pathways in these tissues. The use of gene transfer technology in vivo has allowed the unambiguous demonstration of these endocrine pathways. We and others have exploited such findings and evaluated salivary glands as possible target tissues for systemic applications of gene therapeutics. Salivary glands present numerous advanta… Show more

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Cited by 15 publications
(12 citation statements)
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“…Understanding the immunobiology of the salivary glands is also of particular interest at this time because of rapidly developing progress in gene therapy and tissue engineering as it relates to the salivary glands. The ability to “reengineer” the salivary glands via gene transfer in vivo with the resultant in situ restoration of fluid secretion (35, 36) and to utilize salivary endocrine secretory pathways for systemic gene therapeutics (3739) provides additional reasons for gaining a better understanding of how salivary gland immunity interacts with the expression of transferred genes, especially because the transferred genes are frequently expressed utilizing recombinant viral vectors. In this regard, Zheng et al .…”
Section: Discussionmentioning
confidence: 99%
“…Understanding the immunobiology of the salivary glands is also of particular interest at this time because of rapidly developing progress in gene therapy and tissue engineering as it relates to the salivary glands. The ability to “reengineer” the salivary glands via gene transfer in vivo with the resultant in situ restoration of fluid secretion (35, 36) and to utilize salivary endocrine secretory pathways for systemic gene therapeutics (3739) provides additional reasons for gaining a better understanding of how salivary gland immunity interacts with the expression of transferred genes, especially because the transferred genes are frequently expressed utilizing recombinant viral vectors. In this regard, Zheng et al .…”
Section: Discussionmentioning
confidence: 99%
“…Efficient production and secretion of transgene-encoded proteins can occur with vector doses 10 to 100 times lower than required at many commonly used tissue target sites (e.g. muscle, liver, lung: Snyder et al 1997, Almazan et al 2000, Bohl et al 2000, Chao et al 2001, Auricchio et al 2002, Samakoglu et al 2002, Johnston et al 2003, Voutetakis et al 2004a,b, Zufferey & Aebischer 2004. The use of lower vector doses likely reduces the potential danger of a viral vectorrelated adverse event.…”
Section: Discussionmentioning
confidence: 99%
“…use of the gene as a drug : Crystal 1995, Voutetakis et al 2004a,b, Zufferey & Aebischer 2004. The classic physiological role of SGs is to produce an exocrine secretion, saliva.…”
Section: Introductionmentioning
confidence: 99%
“…Typically, such gene transfer is directed at a cell type that is not the normal physiological site of production of the therapeutic protein. For example, erythropoietin, which is normally produced in the kidney, has been targeted in gene transfer studies to numerous other tissues, including muscle, lung, and salivary glands (Voutetakis et al, 2003). To optimize the potential of gene therapeutics in any target cell type, it is essential to understand both the secretory pathways operative in that target cell, as well as the secretory pathway normally followed by the transgene product in its physiological site of production.…”
Section: Introductionmentioning
confidence: 99%