Jan Sörbo scite author profile

The recurrence rate after a symptomatic DVT is high. Patients with proximal DVT, diagnosed cancer, short duration of oral anticoagulation therapy, or a history of thromboembolic events had a higher risk of recurrent events, while patients with postoperative DVT had a lower recurrence rate. This knowledge could help identify patients who might benefit most from prolonged prophylactic treatment in various risk situations.

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New isoforms of rat Aquaporin-4

Moe

et al. 2008

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Aquaporin-4 (AQP4) is a brain aquaporin implicated in the pathophysiology of numerous clinical conditions including brain edema. Here we show that rat AQP4 has six cDNA isoforms, formed by alternative splicing. These are named AQP4a-f, where AQP4a and AQP4c correspond to the two classical M1 and M23 isoforms, respectively. The various isoforms are differentially expressed in kidney and brain, and their prevalence does not correspond to the level of the respective mRNAs, pointing to posttranscriptional regulation. The three isoforms lacking exon 2, AQP4b, AQP4d, and AQP4f, have an intracellular localization when expressed in cell lines and do not transport water when expressed in Xenopus oocytes. In contrast, the largest of the new isoforms, AQP4e, which contains a novel N-terminal domain, is localized at the plasma membrane in cell lines and functions as a water transporter in Xenopus oocytes.

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Mast-cell-mediated angiogenesis: a novel experimental model using the rat mesentery

Norrby

Jakobsson

Sörbo

1986

Virchows Archiv B Cell Pathol

135

103

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Human OXR1 maintains mitochondrial DNA integrity and counteracts hydrogen peroxide-induced oxidative stress by regulating antioxidant pathways involving p21

Yang

Luna

Sörbo

et al. 2014

Free Radical Biology and Medicine

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The oxidation resistance gene 1 (OXR1) prevents oxidative stress-induced cell death by an unknown pathway. Here, depletion of human OXR1 (hOXR1) sensitized several human cell lines to hydrogen peroxide-induced oxidative stress, reduced mtDNA integrity, and increased apoptosis. In contrast, depletion of hOXR1 in cells lacking mtDNA showed no significant change in ROS or viability, suggesting that OXR1 prevents intracellular hydrogen peroxide-induced increase in oxidative stress levels to avoid a vicious cycle of increased oxidative mtDNA damage and ROS formation. Furthermore, expression of p21 and the antioxidant genes GPX2 and HO-1 was reduced in hOXR1-depleted cells. In sum, these data reveal that human OXR1 upregulates the expression of antioxidant genes via the p21 signaling pathway to suppress hydrogen peroxide-induced oxidative stress and maintain mtDNA integrity.

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The Molecular Composition of Square Arrays

et al. 2008

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Square arrays are prominent structures in plasma membranes of brain, muscle, and kidneys with an unknown function. So far, the analysis of these arrays has been restricted to freeze fracture preparations, which have shown square arrays to contain the water channel Aquaporin-4 (AQP4). Using Blue-Native PAGE immunoblots, we provide evidence that higher-order AQP4 complexes correspond to square arrays, with the AQP4 isoform M23 playing a dominant role. Our data are consistent with the idea that square arrays consist of aggregates of AQP4 tetramers complexed with multiples of dimers. By comparison, Aquaporin-1 and Aquaporin-9 form tetramers, but not higher-order complexes. AQP4 square arrays are stable under several biochemical purification steps. Analyzing the internal composition of the higher-order complexes by 2D gels, we demonstrate that the square arrays in addition to M23 also invariably contain AQP4, M1, and a novel AQP4 isoform that we call Mz. The visualization AQP4 square arrays by a rapid, biochemical assay provides new insight in the molecular organization of square arrays and gives further proof of the heterogeneity of AQP4 square arrays in vivo.

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Tolerated wobble mutations in siRNAs decrease specificity, but can enhance activity in vivo

Holen

Moe²,

Sörbo³

et al. 2005

Nucleic Acids Research

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RNA interference (RNAi) has become an invaluable tool for functional genomics. A critical use of this tool depends on an understanding of the factors that determine the specificity and activity of the active agent, small interfering RNA (siRNA). Several studies have concluded that tolerance of mutations can be considerable and hence lead to off-target effects. In this study, we have investigated in vivo the toleration of wobble (G:U) mutations in high activity siRNAs against Flap Endonuclease 1 (Fen1) and Aquaporin-4 (Aqp4). Mutations in the central part of the antisense strand caused a pronounced decrease in activity, while mutations in the 5′ and 3′ends were tolerated very well. Furthermore, based on analysis of nine different mutated siRNAs with widely differing intrinsic activities, we conclude that siRNA activity can be significantly enhanced by wobble mutations (relative to mRNA), in the 5′ terminal of the antisense strand. These findings should facilitate design of active siRNAs where the target mRNA offers limited choice of siRNA positions.

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Quantitative angiogenesis in spreads of intact rat mesenteric windows

Norrby

Jakobsson

Sörbo

1990

Microvascular Research

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Mast-cell secretion and angiogenesis, a quantitative study in rats and mice

Norrby

Jakobsson

Sörbo

1989

Virchows Archiv B Cell Pathol

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Jan Sörbo

Recurrent Venous Thromboembolism After Deep Vein Thrombosis

New isoforms of rat Aquaporin-4

Mast-cell-mediated angiogenesis: a novel experimental model using the rat mesentery

Human OXR1 maintains mitochondrial DNA integrity and counteracts hydrogen peroxide-induced oxidative stress by regulating antioxidant pathways involving p21

The Molecular Composition of Square Arrays

Tolerated wobble mutations in siRNAs decrease specificity, but can enhance activity in vivo

Quantitative angiogenesis in spreads of intact rat mesenteric windows

Mast-cell secretion and angiogenesis, a quantitative study in rats and mice

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