Asma Noureen scite author profile

between apoB-100 of the LDL moiety and one of the kringle domains in apo(a) (4,5,(14)(15)(16). The assembly of Lp(a) is believed to occur at the hepatocyte cell membrane surface (17), but other scenarios have also been proposed [reviewed in (18, 19)].Lp(a) was originally described as a dichotomous (Lp+, Lp) genetic trait (20), but it soon became evident that it is quantitative rather than qualitative in nature (21-23). Lp(a) plasma concentrations are highly heritable (24-28). The major locus controlling the Lp(a) concentrations is the LPA gene (MIM 152200; ENSG00000198670) on the reverse strand of chromosome 6q27 (29-31), which encodes the apo(a) component of Lp(a) (25,26,(32)(33)(34). Close LPA orthologs are found in all apes and in Old World monkeys. INTRA-AND INTER-POPULATION DIFFERENCES INLp ( INTRODUCTION TO THE LIPOPROTEIN (a) TRAITHuman lipoprotein (a) [Lp(a)] is a macromolecular complex in plasma that was first described in 1963 by the Norwegian physician Kåre Berg (1). Ever since its discovery, this enigmatic particle has intrigued basic researchers and clinicians due to its unknown physiological function and its association with atherosclerotic diseases, in particular coronary heart disease (CHD) [reviewed in (2)]. Lp(a) is composed of one molecule of a LDL-particle containing apoB-100 and one molecule of a large highly polymorphic glycoprotein named apo(a) (3-6). A characteristic feature of apo(a) is the presence of loop-like structures called kringles (7,8). Kringle domains are triple loop structures stabilized by three internal disulfide bonds and are also present in other coagulation factors, such as plasminogen (PLG), prothrombin, urokinase, and tissue-type PLG activators (9-12). In contrast to PLG, the linker domain between kringles is glycosylated in apo(a). The apo(a) is synthesized by the liver (13). The two components of Lp(a) are covalently linked together by a disulfide bond

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C5aR inhibition of nonimmune cells suppresses inflammation and maintains epithelial integrity in SARS-CoV-2–infected primary human airway epithelia

Posch

Vosper

Noureen

et al. 2021

Journal of Allergy and Clinical Immunology

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Background Excessive inflammation triggered by a hitherto undescribed mechanism is a hallmark of severe SARS-CoV-2 infections and is associated with enhanced pathogenicity and mortality. Objective Complement hyper activation promotes lung injury and was observed in patients suffering from MERS-CoV, SARS-CoV-1 and SARS-CoV-2 infections. Therefore, we investigated the very first interactions of primary human airway epithelial cells upon exposure to SARS-CoV-2 in terms of complement C3-mediated effects. Methods For this, we used highly differentiated primary human 3D tissue models infected with SARS-CoV-2 patient isolates. Upon infection, viral load, viral infectivity, intracellular complement activation, inflammatory mechanisms and tissue destruction were analyzed by real-time RT-PCR, high content screening, plaque assays, luminex analyses and TEER measurements. Results Here we show that primary normal human bronchial and small airway epithelial cells respond to SARS-CoV-2 infection by an inflated local C3 mobilization. SARS-CoV-2 infection resulted in exaggerated intracellular complement activation and destruction of the epithelial integrity in monolayer cultures of primary human airway cells and highly differentiated, pseudostratified, mucus-producing, ciliated respiratory tissue models. SARS-CoV-2-infected 3D cultures secreted significantly higher levels of C3a and the pro-inflammatory cytokines IL-6, MCP-1, IL-1α and RANTES. Conclusion Crucially, we illustrate here for the first time, that targeting the anaphylotoxin receptors C3aR and C5aR in non-immune respiratory cells can prevent intrinsic lung inflammation and tissue damage. This opens up the exciting possibility in the treatment of COVID-19.

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Sequence Variation within the KIV-2 Copy Number Polymorphism of the Human LPA Gene in African, Asian, and European Populations

et al. 2015

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Amazingly little sequence variation is reported for the kringle IV 2 copy number variation (KIV 2 CNV) in the human LPA gene. Apart from whole genome sequencing projects, this region has only been analyzed in some detail in samples of European populations. We have performed a systematic resequencing study of the exonic and flanking intron regions within the KIV 2 CNV in 90 alleles from Asian, European, and four different African populations. Alleles have been separated according to their CNV length by pulsed field gel electrophoresis prior to unbiased specific PCR amplification of the target regions. These amplicons covered all KIV 2 copies of an individual allele simultaneously. In addition, cloned amplicons from genomic DNA of an African individual were sequenced. Our data suggest that sequence variation in this genomic region may be higher than previously appreciated. Detection probability of variants appeared to depend on the KIV 2 copy number of the analyzed DNA and on the proportion of copies carrying the variant. Asians had a high frequency of so-called KIV 2 type B and type C (together 70% of alleles), which differ by three or two synonymous substitutions respectively from the reference type A. This is most likely explained by the strong bottleneck suggested to have occurred when modern humans migrated to East Asia. A higher frequency of variable sites was detected in the Africans. In particular, two previously unreported splice site variants were found. One was associated with non-detectable Lp(a). The other was observed at high population frequencies (10% to 40%). Like the KIV 2 type B and C variants, this latter variant was also found in a high proportion of KIV 2 repeats in the affected alleles and in alleles differing in copy numbers. Our findings may have implications for the interpretation of SNP analyses in other repetitive loci of the human genome.

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Asma Noureen

Structure, function, and genetics of lipoprotein (a)

C5aR inhibition of nonimmune cells suppresses inflammation and maintains epithelial integrity in SARS-CoV-2–infected primary human airway epithelia

Sequence Variation within the KIV-2 Copy Number Polymorphism of the Human LPA Gene in African, Asian, and European Populations

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