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Tetracycline-regulated secretion of human insulin in a transfected non-endocrine cell line

Lookup NU author(s): Dr Kathleen Scougall, Professor James Shaw

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Abstract

Long-term constitutive secretion of insulin by implantation of ex vivo transfected cells such as fibroblasts or myoblasts or in situ by intramuscular injection of naked plasmid DNA provides a potential approach to gene therapy for diabetes mellitus. A mechanism for regulating insulin secretion will be necessary to realize the therapeutic potential of this approach. A second obstacle is the inability of non-endocrine host cells to fully process proinsulin. Therefore, alteration of the wild-type cDNA will be necessary to achieve processing of proinsulin by endogenous endoproteases within these cells. The cDNAs for beta-galactosidase (beta), human wild-type proinsulin (hppl1) and a mutated construct (hppl4), in which the dibasic PC2 and PC3 cleavage sites had been altered to form furin cleavage sites, were sub-cloned into four vectors (pCR3, pVR1012, pIRES, pTRE), including a tetracycline responsive plasmid (pTRE) that requires co-transfection with another plasmid encoding a transactivator (pTet-off) for transgene expression. Transient transfection of the COS-7 fibroblast cell line with these constructs was performed using DEAE-dextran and liposomes. Analysis of vector efficiencies revealed that pTRE/pTet-off>pIRES>pCR3>pVR1012. Further analysis demonstrated total pro/insulin secretion of 2.33 ng/10(6) cells/24 h with greater than or equal to25% processed to insulin in hppl-1.pTRE/pTet-off-transfected cells compared with 0.39 ng/10(6) cells/24 h and >70% processing in hppl-4.pTRE/pTet-off-transfected cells. In co-transfection studies with pTRE-hppl1/pTet-off and pTRE-hppl4/pTet-off constructs, pro/insulin secretion was inhibited to 65-66% and 36-38% of control (100%) in the presence of 0.01 and 0.1 mug/ml tetracycline respectively over a 24-h incubation period. Furthermore, reversal of tetracycline inhibition was demonstrated for pTRE-hppl1/pTet-off- and pTRE-hppl4/pTet-off-transfected cells. After a 48-h incubation with 1.0 mug/ml tetracycline, total pro/insulin levels were 10 and 14% compared with untreated cells respectively. On tetracycline removal, total proinsulin levels increased and were equivalent to untreated groups 72 h later. In conclusion, regulation of fully processed human insulin secretion has been achieved in a transiently transfected non-endocrine cell line.


Publication metadata

Author(s): Scougall KT, Maltin CA, Shaw JAM

Publication type: Article

Publication status: Published

Journal: Journal of Molecular Endocrinology

Year: 2003

Volume: 30

Issue: 3

Pages: 331-346

ISSN (print): 0952-5041

ISSN (electronic): 1479-6813

URL: http://dx.doi.org/10.1677/jme.0.0300331

DOI: 10.1677/jme.0.0300331


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