A Voutetakis scite author profile

Female nonobese diabetic (NOD) mice develop spontaneous autoimmune sialadenitis and loss of salivary flow, and are a widely used model of Sjögren's syndrome. We examined the feasibility of local salivary gland immunomodulatory gene delivery to alter these sequelae in NOD mice. We constructed recombinant adeno-associated virus (rAAV) vectors encoding either human interleukin 10 (rAAVhIL-10) or beta-galactosidase (rAAVLacZ, control vector). Mice received rAAVhIL-10 or rAAVLacZ by retrograde submandibular ductal instillation either at age 8 weeks (early, before onset of sialadenitis), or at 16 weeks (late, after onset of sialadenitis). As a systemic treatment control, separate mice received intramuscular delivery of rAAVhIL-10 at each time point. Both submandibular and intramuscular delivery of vector led to low circulating levels of hIL-10. After submandibular administration of rAAVhIL-10, salivary flow rates at 20 weeks for both the early and late treatment groups were significantly higher than for both rAAVLacZ-administered and untreated mice. Systemic delivery of rAAVhIL-10 led to improved salivary flow in the late treatment group. Inflammatory infiltrates in submandibular glands, however, were significantly reduced only in mice receiving rAAVhIL-10 locally in the salivary gland compared with mice receiving this vector intramuscularly, or rAAVLacZ or no treatment. In addition, after submandibular rAAVhIL-10 delivery, NOD mice exhibited significantly lower blood glucose, and higher serum insulin, levels than all other groups, indicating some systemic benefit of this treatment. These studies show that expression of hIL-10 by rAAV vectors can have disease-modifying effects in the salivary glands of NOD mice, and suggest that local immunomodulatory gene transfer may be useful for managing the salivary gland pathology in Sjögren's syndrome.

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A transgenic mouse bearing an antisense construct of regulatory subunit type 1A of protein kinase A develops endocrine and other tumours: comparison with Carney complex and other PRKAR1A induced lesions

Griffin

Kirschner²,

Matyakhina³

et al. 2004

Journal of Medical Genetics

106

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Background: Inactivation of the human type Ia regulatory subunit (RIa) of cyclic AMP dependent protein kinase (PKA) (PRKAR1A) leads to altered kinase activity, primary pigmented nodular adrenocortical disease (PPNAD), and sporadic adrenal and other tumours. Methods and results: A transgenic mouse carrying an antisense transgene for Prkar1a exon 2 (X2AS) under the control of a tetracycline responsive promoter (the Tg(Prkar1a*x2as)1Stra, Tg(tTAhCMV)3Uh or tTA/X2AS line) developed thyroid follicular hyperplasia and adenomas, adrenocortical hyperplasia and other features reminiscent of PPNAD, including late onset weight gain, visceral adiposity, and nondexamethasone suppressible hypercorticosteronaemia, with histiocytic, epithelial hyperplasias, lymphomas, and other mesenchymal tumours. These lesions were associated with allelic losses of the mouse chromosome 11 Prkar1a locus, an increase in total type II PKA activity, and higher RIIb protein levels; the latter biochemical and protein changes were also documented in Carney complex tumours associated with PRKAR1A inactivating mutations and chromosome 17 PRKAR1A locus changes. Conclusion: We conclude that the tTA/X2AS mouse line with a downregulated Prkar1a gene replicates several of the findings in Carney complex patients and their affected tissues, supporting the role of RIa as a candidate tumour suppressor gene.

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Protein kinase A and its role in human neoplasia: the Carney complex paradigm.

Bossis¹,

Voutetakis²,

Bei³

et al. 2004

Endocr Relat Cancer

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The type 1 alpha regulatory subunit (R1a) of cAMP-dependent protein kinase A (PKA) (PRKAR1A) is an important regulator of the serine-threonine kinase activity catalyzed by the PKA holoenzyme. Carney complex (CNC) describes the association 'of spotty skin pigmentation, myxomas, and endocrine overactivity'; CNC is in essence the latest form of multiple endocrine neoplasia to be described and affects the pituitary, thyroid, adrenal and gonadal glands. Primary pigmented nodular adrenocortical disease (PPNAD), a micronodular form of bilateral adrenal hyperplasia that causes a unique, inherited form of Cushing syndrome, is also the most common endocrine manifestation of CNC. CNC and PPNAD are genetically heterogeneous but one of the responsible genes is PRKAR1A, at least for those families that map to 17q22-24 (the chromosomal region that harbors PRKAR1A). CNC and/or PPNAD are the first human diseases to be caused by mutations in one of the subunits of the PKA holoenzyme. Despite the extensive literature on R1a and PKA, little is known about their potential involvement in cell cycle regulation, growth and/or proliferation. The presence of inactivating germline mutations and the loss of its wild-type allele in CNC lesions indicated that PRKAR1A could function as a tumor-suppressor gene in these tissues. However, there are conflicting data in the literature about PRKAR1A's role in human neoplasms, cancer cell lines and animal models. In this report, we review briefly the genetics of CNC and focus on the involvement of PRKAR1A in human tumorigenesis in an effort to reconcile the often diametrically opposite reports on R1a.

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Sorting of transgenic secretory proteins in rhesus macaque parotid glands following adenoviral mediated gene transfer

Voutetakis¹,

Zheng²,

Metzger³

et al. 2008

Human Gene Therapy

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We have previously used viral vectors encoding either human growth hormone (hGH) or erythropoietin (hEPO) to study the sorting of transgenic proteins in mouse and minipig salivary glands. Whereas hGH (a regulated secretory pathway [RSP] protein) is secreted predominantly into saliva in both species, hEPO (a constitutive secretory pathway [CSP] protein) is found primarily in the bloodstream with mice, but overwhelmingly in saliva with minipigs. In view of the hEPO sorting difference, we have conducted a similar study in nonhuman primates. Specifically, we examined hGH and hEPO sorting after adenoviral (Ad) vector-mediated gene transfer to parotid glands of rhesus macaques, another large and important animal model. Two groups (n = 2 per dose group; total n = 8) of male macaques received either 10(10) particles per gland (low-dose group) or 10(11) particles per gland (high-dose group) of adenoviral (Ad) vectors encoding either hGH (AdhGH) or hEPO (Ad-hEPO) via intraoral cannulation of both parotid glands. All macaques tolerated administration of Ad vectors well, with no clinically significant changes observed in any hematological and serum chemistry parameters. In AdhGH-treated animals, hGH was secreted exclusively into saliva. In contrast, after AdhEPO delivery, hEPO was secreted both in serum and saliva, at levels intermediate between mice and minipigs. We conclude that RSP proteins are faithfully secreted into saliva in all model species tested, whereas patterns of CSP protein secretion are variable.

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A Voutetakis

Local Adeno-Associated Virus-Mediated Interleukin 10 Gene Transfer Has Disease-Modifying Effects in a Murine Model of Sjögren's Syndrome

A transgenic mouse bearing an antisense construct of regulatory subunit type 1A of protein kinase A develops endocrine and other tumours: comparison with Carney complex and other PRKAR1A induced lesions

Protein kinase A and its role in human neoplasia: the Carney complex paradigm.

Sorting of transgenic secretory proteins in rhesus macaque parotid glands following adenoviral mediated gene transfer

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