Urszula Cymerman scite author profile

Endoglin (CD105), a component of the TGF-␤ 1 receptor complex, is the target gene for the dominantly inherited vascular disorder hereditary hemorrhagic telangiectasia type 1 (HHT1). We have identified a novel endoglin splice site mutation, leading to an in-frame deletion of exon 3, in a newborn from a family with HHT. Expression of normal and mutant endoglin proteins was analyzed in umbilical vein endothelial cells from this baby and in activated monocytes from the affected father. In both samples, only normal dimeric endoglin (160 kD) was observed at the cell surface, at 50% of control levels. Despite an intact transmembrane region, mutant protein was only detectable by metabolic labeling, as an intracellular homodimer of 130 kD. In monocytes from three clinically affected HHT1 patients, with known mutations creating premature stop codons in exons 8 and 10, surface endoglin was also reduced by half and no mutant was detected. Overexpression into COS-1 cells of endoglin cDNA truncated in exons 7 and 11, revealed their intracellular expression, inability to be secreted and to form heterodimers at the cell surface. These results indicate that mutated forms of endoglin are transiently expressed intracellularly and not likely to act as dominant negative proteins, as proposed previously. A reduction in the level of functional endoglin is thus involved in the generation of HHT1, and associated arteriovenous malformations. ( J. Clin. Invest. 1997. 100:2568-2579.)

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Endoglin Expression Is Reduced in Normal Vessels but Still Detectable in Arteriovenous Malformations of Patients with Hereditary Hemorrhagic Telangiectasia Type 1

Bourdeau

Cymerman

Paquet

et al. 2000

The American Journal of Pathology

123

105

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Endoglin is predominantly expressed on endothelium and is mutated in hereditary hemorrhagic telangiectasia (HHT) type 1 (HHT1). We report the analysis of endoglin in tissues of a newborn (family 2), who died of a cerebral arteriovenous malformation (CAVM), and in a lung specimen surgically resected from a 78-year-old patient (family 5), with a pulmonary AVM (PAVM). The clinically affected father of the newborn revealed a novel mutation that was absent in his parents and was identified as a duplication of exons 3 to 8, by quantitative multiplex polymerase chain reaction. The corresponding mutant protein (116-kd monomer) and the missense mutant protein (80-kd monomer) present in family 5 were detected only as transient intracellular species and were unreactive by Western blot analysis and immunostaining. Normal endoglin (90-kd monomer) was reduced by 50% on peripheral blood-activated monocytes of the HHT1 patients. When analyzed by immunostaining and densitometry, presumed normal blood vessels of the newborn lung and brain and vessels adjacent to the adult PAVM showed a 50% reduction in the endoglin/PECAM-1 ratio. A similar ratio was observed in the CAVM and PAVM, suggesting that all blood vessels of HHT1 patients express reduced endoglin in situ and that AVMs are not attributed to a focal loss of endoglin.

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Disease-associated mutations in conserved residues of ALK-1 kinase domain

et al. 2003

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Activin receptor-like kinase-1 (ALK-1), the gene mutated in HHT type 2 (HHT2), is a serine/threonine kinase receptor type I of the TGF-b superfamily, specifically expressed on endothelial cells. We established an HHT2 genotype in 16 families and report nine novel mutations. These include insertions and deletions of single base pairs in exons 3, 8 and 9, as well as nonsense mutations in exons 4 and 8 of ALK-1, which would lead to premature truncation and unstable mRNA or protein. Three novel missense mutations were identified in exons 7 and 8 of the kinase domain. Five previously reported substitutions were also observed in the families analyzed. Our results bring to 36, the number of mutations associated with HHT2, and are mostly found in exons 8 and 3 followed by exons 4 and 7. To ascertain the potential functional implications of the missense mutations in the ALK-1 kinase domain, we generated a model based on the threedimensional structure of the homologous ALK-5 kinase domain. Our data reveal that the 11 missense mutations modify residues conserved among type I receptors and alter the polarity, charge, hydrophobicity and/or size of the substituted amino-acid and likely lead to misfolded and nonfunctional proteins.

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Expression Analysis of Four Endoglin Missense Mutations Suggests That Haploinsufficiency Is the Predominant Mechanism for Hereditary Hemorrhagic Telangiectasia Type 1

Pece-Barbara

Cymerman

Vera

et al. 1999

Human Molecular Genetics

111

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ENDOGLIN codes for a homodimeric membrane glycoprotein that interacts with receptors for members of the TGF-beta superfamily and is the gene mutated in the autosomal dominant vascular disorder hereditary hemorrhagic telangiectasia type 1 (HHT1). We recently demonstrated that functional endoglin was expressed at half levels on human umbilical vein endothelial cells (HUVECs) and peripheral blood activated monocytes from HHT1 patients. Two types of mutant protein were previously analyzed, the product of an exon 3 skip which was expressed as a transient intracellular species and prematurely truncated proteins that were undetectable in patient samples. Here we report the analysis of four proteins resulting from point mutations, with missense codons G52V and C53R in exon 2, W149C in exon 4 and L221P in exon 5. Metabolic labeling of activated monocytes from confirmed, clinically affected patients revealed reduced expression of fully processed normal endoglin in all cases. Pulse-chase analysis with HUVECs from a newborn with the C53R substitution indicated that mutant endoglin remained intracellular as a precursor form and did not impair processing of the normal protein. Biotinylation of cell surface proteins, metabolic labeling and pulse-chase analysis revealed that none of the engineered missense mutants was significantly expressed at the surface of COS-1 transfectants. Thus, these four HHT1 missense mutations lead to transient intracellular species which cannot interfere with normal endoglin function. These data suggest that haploinsufficiency, leading to reduced levels of one of the major surface glyco-proteins of vascular endothelium, is the predominant mechanism underlying the HHT1 phenotype.

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