Marco Lau scite author profile

Objective-Ferlins are known to regulate plasma membrane repair in muscle cells and are linked to muscular dystrophy and cardiomyopathy. Recently, using proteomic analysis of caveolae/lipid rafts, we reported that endothelial cells (EC) express myoferlin and that it regulates membrane expression of vascular endothelial growth factor receptor 2 (VEGFR-2). The goal of this study was to document the presence of other ferlins in EC. Methods and Results-EC expressed another ferlin, dysferlin, and that in contrast to myoferlin, it did not regulate VEGFR-2 expression levels or downstream signaling (nitric oxide and Erk1/2 phosphorylation). Instead, loss of dysferlin in subconfluent EC resulted in deficient adhesion followed by growth arrest, an effect not observed in confluent EC. In vivo, dysferlin was also detected in intact and diseased blood vessels of rodent and human origin, and angiogenic challenge of dysferlin-null mice resulted in impaired angiogenic response compared with control mice. Mechanistically, loss of dysferlin in cultured EC caused polyubiquitination and proteasomal degradation of platelet endothelial cellular adhesion molecule-1 (PECAM-1/CD31), an adhesion molecule essential for angiogenesis. In addition, adenovirus-mediated gene transfer of PECAM-1 rescued the abnormal adhesion of EC caused by dysferlin gene silencing. Conclusion-Our

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Can sharing experiences in groups reduce the burden of living with diabetes, regardless of glycaemic control?

Due‐Christensen

Zoffmann

Hommel

et al. 2012

Diabetic Medicine

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Support groups are able to reduce diabetes-related and psychological distress 1 year after the intervention for patients with both good and poor glycaemic control displaying high levels of distress. Although patients with severely high levels of diabetes-related distress might need more extensive therapeutic interventions to further reduce their level of distress. Further, interventions that target specific self-management problems are needed for patients with poor glycaemic control to help them accomplish lower levels of HbA1c. Moreover, healthcare providers must be aware that patients with good glycaemic control might have an unacknowledged psychosocial burden of living with the illness.

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Pathogenesis of POLR1C-dependent Type 3 Treacher Collins Syndrome revealed by a zebrafish model

Lau

Kwong

Lai

et al. 2016

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Treacher Collins Syndrome (TCS) is a rare congenital birth disorder (1 in 50,000 live births) characterized by severe craniofacial defects, including the downward slanting palpebral fissures, hypoplasia of the facial bones, and cleft palate (CP). Over 90% of patients with TCS have a mutation in the TCOF1 gene. However, some patients exhibit mutations in two new causative genes, POLR1C and POLR1D, which encode subunits of RNA polymerases I and III, that affect ribosome biogenesis. In this study, we examine the role of POLR1C in TCS using zebrafish as a model system. Our data confirmed that polr1c is highly expressed in the facial region, and dysfunction of this gene by knockdown or knock-out resulted in mis-expression of neural crest cells during early development that leads to TCS phenotype. Next generation sequencing and bioinformatics analysis of the polr1c mutants further demonstrated the up-regulated p53 pathway and predicted skeletal disorders. Lastly, we partially rescued the TCS facial phenotype in the background of p53 mutants, which supported the hypothesis that POLR1C-dependent type 3 TCS is associated with the p53 pathway.

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Osmotic stress transcription factor 1b (Ostf1b) promotes migration properties with the modulation of epithelial mesenchymal transition (EMT) phenotype in human embryonic kidney cell

Lai

Law

Lau

et al. 2013

The International Journal of Biochemistry & Cell Biology

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Restoration of polr1c in Early Embryogenesis Rescues the Type 3 Treacher Collins Syndrome Facial Malformation Phenotype in Zebrafish

Kwong

Lau

et al. 2018

The American Journal of Pathology

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Treacher Collins syndrome (TCS) is a rare congenital birth disorder (1 in 50,000 live births) characterized by severe craniofacial defects. Recently, the authors' group unfolded the pathogenesis of polr1c Type 3 TCS by using the zebrafish model. Facial development depends on the neural crest cells, in which polr1c plays a role in regulating their expression. In this study, the authors aimed to identify the functional time window of polr1c in TCS by the use of photo-morpholino to restore the polr1c expression at different time points. Results suggested that the restoration of polr1c at 8 hours after fertilization could rescue the TCS facial malformation phenotype by correcting the neural crest cell expression, reducing the cell death, and normalizing the p53 mRNA expression level in the rescued morphants. However, such recovery could not be reproduced if the polr1c is restored after 30 hours after fertilization.

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Colocalization Of RyR And Cav1.2 In Ventricular Myocytes Is Independent Of The Physical Orientation Of The Cell

Scriven

Asghari

Lau

et al. 2009

Biophysical Journal

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Marco Lau

Impact of Patient Use of an Online Patient Portal on Diabetes Outcomes

A New Role for the Muscle Repair Protein Dysferlin in Endothelial Cell Adhesion and Angiogenesis

Can sharing experiences in groups reduce the burden of living with diabetes, regardless of glycaemic control?

Pathogenesis of POLR1C-dependent Type 3 Treacher Collins Syndrome revealed by a zebrafish model

Osmotic stress transcription factor 1b (Ostf1b) promotes migration properties with the modulation of epithelial mesenchymal transition (EMT) phenotype in human embryonic kidney cell

Restoration of polr1c in Early Embryogenesis Rescues the Type 3 Treacher Collins Syndrome Facial Malformation Phenotype in Zebrafish

Colocalization Of RyR And Cav1.2 In Ventricular Myocytes Is Independent Of The Physical Orientation Of The Cell

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