Jan R. Kraehling scite author profile

Activin receptor-like kinase 1 (ALK1) is an endothelial serine–threonine kinase receptor for bone morphogenetic proteins (BMPs) 9 and 10. Inactivating mutations in the ALK1 gene cause hereditary haemorrhagic telangiectasia type 2 (HHT2), a disabling disease characterized by excessive angiogenesis with arteriovenous malformations (AVMs). Here we show that inducible, endothelial-specific homozygous Alk1 inactivation and BMP9/10 ligand blockade both lead to AVM formation in postnatal retinal vessels and internal organs including the gastrointestinal (GI) tract in mice. VEGF and PI3K/AKT signalling are increased on Alk1 deletion and BMP9/10 ligand blockade. Genetic deletion of the signal-transducing Vegfr2 receptor prevents excessive angiogenesis but does not fully revert AVM formation. In contrast, pharmacological PI3K inhibition efficiently prevents AVM formation and reverts established AVMs. Thus, Alk1 deletion leads to increased endothelial PI3K pathway activation that may be a novel target for the treatment of vascular lesions in HHT2.

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Nanoparticle targeting to the endothelium during normothermic machine perfusion of human kidneys

Tietjen

et al. 2017

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Ex vivo normothermic machine perfusion (NMP) is a new clinical strategy to assess and resuscitate organs likely to be declined for transplantation, thereby increasing the number of viable organs available. Short periods of NMP provide a window of opportunity to deliver therapeutics directly to the organ and, in particular, to the vascular endothelial cells (ECs) that constitute the first point of contact with the recipient’s immune system. ECs are the primary targets of both ischemia-reperfusion injury and damage from preformed antidonor antibodies, and reduction of perioperative EC injury could have long-term benefits by reducing the intensity of the host’s alloimmune response. Using NMP to administer therapeutics directly to the graft avoids many of the limitations associated with systemic drug delivery. We have previously shown that polymeric nanoparticles (NPs) can serve as depots for long-term drug release, but ensuring robust NP accumulation within a target cell type (graft ECs in this case) remains a fundamental challenge of nanomedicine. We show that surface conjugation of an anti-CD31 antibody enhances targeting of NPs to graft ECs of human kidneys undergoing NMP. Using a two-color quantitative microscopy approach, we demonstrate that targeting can enhance EC accumulation by about 5-to 10-fold or higher in discrete regions of the renal vasculature. In addition, our studies reveal that NPs can also non-specifically accumulate within obstructed regions of the vasculature that are poorly perfused. These quantitative preclinical human studies demonstrate the therapeutic potential for targeted nanomedicines delivered during ex vivo NMP.

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Genome-wide RNAi screen reveals ALK1 mediates LDL uptake and transcytosis in endothelial cells

et al. 2016

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In humans and animals lacking functional LDL receptor (LDLR), LDL from plasma still readily traverses the endothelium. To identify the pathways of LDL uptake, a genome-wide RNAi screen was performed in endothelial cells and cross-referenced with GWAS-data sets. Here we show that the activin-like kinase 1 (ALK1) mediates LDL uptake into endothelial cells. ALK1 binds LDL with lower affinity than LDLR and saturates only at hypercholesterolemic concentrations. ALK1 mediates uptake of LDL into endothelial cells via an unusual endocytic pathway that diverts the ligand from lysosomal degradation and promotes LDL transcytosis. The endothelium-specific genetic ablation of Alk1 in Ldlr-KO animals leads to less LDL uptake into the aortic endothelium, showing its physiological role in endothelial lipoprotein metabolism. In summary, identification of pathways mediating LDLR-independent uptake of LDL may provide unique opportunities to block the initiation of LDL accumulation in the vessel wall or augment hepatic LDLR-dependent clearance of LDL.

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Caveolin-1 Regulates Atherogenesis by Attenuating Low-Density Lipoprotein Transcytosis and Vascular Inflammation Independently of Endothelial Nitric Oxide Synthase Activation

et al. 2019

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Background-Atherosclerosis is driven by synergistic interactions between pathological biomechanical, inflammatory and lipid metabolic factors. Our previous studies demonstrated that absence of caveolin-1 (Cav1)/caveolae in hyperlipidemic mice strongly inhibits atherosclerosis, which was attributed to activation of endothelial nitric oxide synthase (eNOS) and increased production of nitric oxide (NO), reduced inflammation and low-density lipoprotein (LDL) trafficking. However, the contribution of eNOS activation and NO production in the athero-protection of Cav1 and the exact mechanisms by which Cav1/caveolae controls the pathogenesis of diet-induced atherosclerosis are still not clear. Methods-Triple knockout mouse lacking expression of eNOS, Cav1 and Ldlr were generated to explore the role of NO production in Cav1-dependent atheo-protective function. The effects of Cav1 on lipid trafficking, extracellular matrix (ECM) remodeling and vascular inflammation were studied both in vitro and in vivo using a mouse model of diet-induced atherosclerosis. The expression of Cav1 and distribution of caveolae regulated by flow were analyzed by immunofluorescence staining and transmission electron microscopy. Results-We found that absence of Cav1 significantly suppressed atherogenesis in Ldlr −/− eNOS −/− mice, demonstrating that athero-suppression is independent of increased NO production. Instead, we find that absence of Cav1/caveolae inhibited LDL transport across the endothelium, pro-atherogenic fibronectin deposition, and disturbed flow-mediated endothelial cell (EC) inflammation. Consistent with the idea that Cav1/caveolae may play a role in early flowdependent inflammatory priming, distinct patterns of Cav1 expression and caveolae distribution were observed in athero-prone and athero-resistant areas of the aortic arch even in wild-type mice. Conclusions-The above findings support a role for Cav1/caveolae as a central regulator of atherosclerosis that links biomechanical, metabolic and inflammatory pathways independent of endothelial eNOS activation and NO production.

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A conserved C-terminal RXG motif in the NgBR subunit of cis-prenyltransferase is critical for prenyltransferase activity

Grabińska

Edani

Park

et al. 2017

Journal of Biological Chemistry

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-Prenyltransferases (-PTs) constitute a large family of enzymes conserved during evolution and present in all domains of life. In eukaryotes and archaea, -PT is the first enzyme committed to the synthesis of dolichyl phosphate, an obligate lipid carrier in protein glycosylation reactions. The homodimeric bacterial enzyme, undecaprenyl diphosphate synthase, generates 11 isoprene units and has been structurally and mechanistically characterized in great detail. Recently, we discovered that unlike undecaprenyl diphosphate synthase, mammalian-PT is a heteromer consisting of NgBR (Nus1) and hCIT (dehydrodolichol diphosphate synthase) subunits, and this composition has been confirmed in plants and fungal -PTs. Here, we establish the first purification system for heteromeric-PT and show that both NgBR and hCIT subunits function in catalysis and substrate binding. Finally, we identified a critical RG sequence in the C-terminal tail of NgBR that is conserved and essential for enzyme activity across phyla. In summary, our findings show that eukaryotic -PT is composed of the NgBR and hCIT subunits. The strong conservation of the RG motif among NgBR orthologs indicates that this subunit is critical for the synthesis of polyprenol diphosphates and cellular function.

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Jan R. Kraehling

PI3 kinase inhibition improves vascular malformations in mouse models of hereditary haemorrhagic telangiectasia

Nanoparticle targeting to the endothelium during normothermic machine perfusion of human kidneys

Genome-wide RNAi screen reveals ALK1 mediates LDL uptake and transcytosis in endothelial cells

Caveolin-1 Regulates Atherogenesis by Attenuating Low-Density Lipoprotein Transcytosis and Vascular Inflammation Independently of Endothelial Nitric Oxide Synthase Activation

A conserved C-terminal RXG motif in the NgBR subunit of cis-prenyltransferase is critical for prenyltransferase activity

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