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Publication : Use of the tetracycline system for inducible protein synthesis in the kidney.

First Author  Gallagher AR Year  2003
Journal  J Am Soc Nephrol Volume  14
Issue  8 Pages  2042-51
PubMed ID  12874458 Mgi Jnum  J:131887
Mgi Id  MGI:3774785 Doi  10.1097/01.asn.0000079615.38843.4a
Citation  Gallagher AR, et al. (2003) Use of the tetracycline system for inducible protein synthesis in the kidney. J Am Soc Nephrol 14(8):2042-51
abstractText  The great advantage of the tetracycline-inducible system lies in its ability to address a large variety of biological questions in a time-dependent and tissue-specific manner. This study describes a transgenic mouse line, rTA(LAP)-1, which produces the reverse tetracycline transactivator under control of the liver activator protein (LAP) promoter. Two reporter lines with luciferase and LacZ reporter genes were used to demonstrate predominant expression in the kidney and liver when doxycycline was added to the drinking water. In the kidney, transgene expression was found primarily in cortical proximal tubules. No luciferase and beta-galactosidase activity was detected in mice without doxycycline in the drinking water, which attests to the tight control of this system. One of the advantages of the tet system lies in its reversibility, and indeed, a virtually complete remission of transgene activity in both the kidney and liver was observed when doxycycline was withdrawn. Also examined was transactivator activity during development by exposing the mothers producing the reverse transactivator to doxycycline before mating. Transgene activity was detected in newborn kidneys and liver, indicating that sufficient amounts of doxycycline had crossed the placental barrier. During nephron development, the LAP promoter appeared to be only active in the more mature proximal tubules. Finally, the rTA(LAP)-1 line was used to inducibly express the human PKD2 cDNA in proximal tubules of transgenic mice, but no cystic changes were detected, even after 6 mo of induction.
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