Anna‐Mari Kärkkäinen scite author profile

Background RNA interference (RNAi) is a post-transcriptional RNA degradation process, which has become a very useful tool in gene function studies and gene therapy applications. Long-term cellular expression of small interfering RNA (siRNA) molecules required for many gene therapy applications can be achieved by lentiviral vectors (LVs). The two most commonly used promoters to drive the short hairpin RNA (shRNA) expression are the human U6 small nuclear promoter (U6) and the human H1 promoter (H1).

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Vascular endothelial growth factor-D transgenic mice show enhanced blood capillary density, improved postischemic muscle regeneration, and increased susceptibility to tumor formation

Kärkkäinen

Kotimaa

Huusko

et al. 2009

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Vascular endothelial growth factor-D (VEGF-D) has angiogenic and lymphangiogenic activity, but its biologic role has remained unclear because knockout mice showed no clear phenotype. Transgenic (TG) mice expressing the mature form of human VEGF-D (hVEGF-D) were produced by lentiviral (LV) transgenesis using the perivitelline injection method. Several viable founders showed a macroscopically normal phenotype and the transgene transmitted through germ line. Expression of hVEGF-D mRNA was high in skeletal muscles, skin, pancreas, heart, and spleen. A significant increase was found in capillary density of skeletal muscles and myocardium, whereas no changes were observed in lymphatic capillary density. After induction of hindlimb ischemia, the TG mice showed enhanced capacity for muscle regeneration. However, on aging the TG mice had significantly increased mortality from malignant tumors, of which half were breast adenocarcinomas characterized with the absence of periductal muscle cells. Some tumors metastasized into the lungs. In addition, lung and skin tumors were found, but no blood-or lymphatic vesselderived malignancies were detected. We conclude that in mice hVEGF-D is an angiogenic factor associated with improved muscle regeneration after ischemic injury but also with increased incidence of tumor formation with a preference for mammary gland tumors.

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Effect of powder inhaler design on drug deposition in the respiratory tract

Vidgrén¹,

Kärkkäinen²,

Karjalainen³

et al. 1988

International Journal of Pharmaceutics

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Effect of extension devices on the drug deposition from inhalation aerosols

Vidgrén¹,

Paronen²,

Kärkkäinen³

et al. 1987

International Journal of Pharmaceutics

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In Vitro and in Vivo Deposition of Drug Particles Inhaled from Pressurized Aerosol and Dry Powder Inhaler

Vidgrén

Kärkkäinen²,

Karjalainen³

et al. 1988

Drug Development and Industrial Pharmacy

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