Heparin Binds Lamprey Angiotensinogen and Promotes Thrombin Inhibition through a Template Mechanism.

Lamprey angiotensinogen (l-ANT) is a hormone carrier in the regulation of blood pressure, but it is also a heparin-dependent thrombin inhibitor in lamprey blood coagulation system. The detailed mechanisms on how angiotensin is carried by l-ANT and how heparin binds l-ANT and mediates thrombin inhibition are unclear. Here we have solved the crystal structure of cleaved l-ANT at 2.

Repression of liver colorectal metastasis by the serpin Spn4A a naturally occurring inhibitor of the constitutive secretory proprotein convertases.

Liver is the most common site of metastasis from colorectal cancers, and liver of patients with liver colorectal metastasis have abnormal levels of the proprotein convertases (PCs). These proteases are involved in the activation and/or expression of various colon cancer-related mediators, making them promising targets in colorectal liver metastasis therapy. Here, we revealed that the serpin Spn4 from Drosophila melanogaster inhibits the activity of all the PCs found in the constitutive secretory pathway and represses the metastatic potential of the colon cancer cells HT-29 and CT-26.

Origin of serpin-mediated regulation of coagulation and blood pressure.

Vertebrates evolved an endothelium-lined hemostatic system and a pump-driven pressurized circulation with a finely-balanced coagulation cascade and elaborate blood pressure control over the past 500 million years. Genome analyses have identified principal components of the ancestral coagulation system, however, how this complex trait was originally regulated is largely unknown. Likewise, little is known about the roots of blood pressure control in vertebrates.

Bioinformatic approaches for the identification of serpin genes with multiple reactive site loop coding exons.

In several branches of the tree of life, alternative splicing of a single primary transcript may give rise to multiple serpin isoforms exhibiting different target enzyme specificities. Though the continuously increasing number of genome sequencing projects has been paralleled by a rapidly rising number of serpin genes, the full spectrum of isoforms that some of these genes can encode has often not been recognized in routine database searches. In this chapter, we introduce procedures that enable the systematic extraction of multi-isoform generating serpin genes from genomic sequences.

An unexpected link between angiotensinogen and thrombin.

Angiotensinogen is well known as source protein for a group of potent vasoactive hormones, however, a discrete biochemical activity of the angiotensinogen body is not known. Here we investigated angiotensinogen from the lamprey Lampetra fluviatilis (L. fluviatilis), an early-diverged vertebrate.

Intron creation and DNA repair.

The genesis of the exon-intron patterns of eukaryotic genes persists as one of the most enigmatic questions in molecular genetics. In particular, the origin and mechanisms responsible for creation of spliceosomal introns have remained controversial. Now the issue appears to have taken a turn.

Multiple gains of spliceosomal introns in a superfamily of vertebrate protease inhibitor genes.

Background: Intron gains reportedly are very rare during evolution of vertebrates, and the mechanisms underlying their creation are largely unknown. Previous investigations have shown that, during metazoan radiation, the exon-intron patterns of serpin superfamily genes were subject to massive changes, in contrast to many other genes.

Results: Here we investigated intron dynamics in the serpin superfamily in lineages pre- and postdating the split of vertebrates.

Ancestry and evolution of a secretory pathway serpin.

Background: The serpin (serine protease inhibitor) superfamily constitutes a class of functionally highly diverse proteins usually encompassing several dozens of paralogs in mammals. Though phylogenetic classification of vertebrate serpins into six groups based on gene organisation is well established, the evolutionary roots beyond the fish/tetrapod split are unresolved. The aim of this study was to elucidate the phylogenetic relationships of serpins involved in surveying the secretory pathway routes against uncontrolled proteolytic activity.

Functional diversification of a protease inhibitor gene in the genus Drosophila and its molecular basis.

The mutually exclusive use of alternative reactive site loop (RSL) cassettes due to alternative splicing of serpin (serine protease inhibitor) gene transcripts is a widespread strategy to create target-selective protease inhibitors in the animal kingdom. Since molecular basis and evolution of serpin RSL cassette exon amplification and diversification are unexplored, the exon-intron organization of the serpin gene spn4 from 12 species of the genus Drosophila was studied. The analysis of the gene structures shows that both number and target enzyme specificities of Spn4 RSL cassettes are highly variable in fruit flies and includes inhibitor variants with novel antiproteolytic activities in some species, indicating that RSL diversity is the result of adaptive evolution.

The Spn4 gene from Drosophila melanogaster is a multipurpose defence tool directed against proteases from three different peptidase families.

By alternative use of four RSL (reactive site loop) coding exon cassettes, the serpin (serine protease inhibitor) gene Spn4 from Drosophila melanogaster was proposed to enable the synthesis of multiple protease inhibitor isoforms, one of which has been shown to be a potent inhibitor of human furin. Here, we have investigated the inhibitory spectrum of all Spn4 RSL variants. The analyses indicate that the Spn4 gene encodes inhibitors that may inhibit serine proteases of the subtilase family (S8), the chymotrypsin family (S1), and the papain-like cysteine protease family (C1), most of them at high rates.

A proprotein convertase-inhibiting serpin with an endoplasmic reticulum targeting signal from Branchiostoma lanceolatum, a close relative of vertebrates.

Lancelets are considered to take a key position in the evolution of lineages leading to vertebrates. Herein, a serpin from the lancelet Branchiostoma lanceolatum, Bl-Spn1, was identified that inhibits the PCs (proprotein convertases) PC1/3 and furin. The inhibitor forms SDS-stable complexes with either of its targets.

Inhibition of furin by serpin Spn4A from Drosophila melanogaster.

The serpin gene Spn4 from Drosophila melanogaster encodes multiple isoforms with alternative reactive site loops (RSL). Here, we show that isoform Spn4A inhibits human furin with an apparent kassoc of 5.5 x 10(6) M(-1) s(-1).

Reformable intramolecular cross-linking of the N-terminal domain of heparin cofactor II: effects on enzyme inhibition.

The crystal structure of a heparin cofactor II (HCII)-thrombin Michaelis complex has revealed extensive contacts encompassing the N-terminal domain of HCII and exosite I of the proteinase. In contrast, the location of the N-terminal extension in the uncomplexed inhibitor was unclear. Using a disulfide cross-linking strategy, we demonstrate that at least three different sites (positions 52, 54 and 68) within the N terminus may be tethered in a reformable manner to position 195 in the loop region between helix D and strand s2A of the HCII molecule, suggesting that the N-terminal domain may interact with the inhibitor scaffold in a permissive manner.

Zinc ions promote the interaction between heparin and heparin cofactor II.

The effects of bivalent cations on heparin binding, structure, and thrombin inhibition rates of heparin cofactor II were examined. Zn(2+) - and to a lesser extent Cu(2+) and Ni(2+) - enhanced the interaction between heparin cofactor II and heparin as demonstrated by heparin affinity chromatography and surface plasmon resonance experiments. Metal chelate chromatography and increased intrinsic protein fluorescence in the presence of Zn(2+) indicated that heparin cofactor II has metal ion-binding properties.

Widespread occurrence of serpin genes with multiple reactive centre-containing exon cassettes in insects and nematodes.

By applying homology-search and text-mining programs we have found that the Drosophila serine protease inhibitor (serpin) gene sp4 harbours four reactive centre-coding exons. The mutually exclusive use of these cassettes in combination with alternatively selectable exons at the 5'-end or in the 3'-untranslated region of the gene allows generation of more than ten different transcripts, all of which are expressed in Drosophila embryos. These transcripts may code for eight different Sp4 protein isoforms with different biological functions, which - dependent on the splice pattern - either may be secreted, reside in the endoplasmic reticulum, or may be located in the cytoplasm.

Tyrosine sulfation and N-glycosylation of human heparin cofactor II from plasma and recombinant Chinese hamster ovary cells and their effects on heparin binding.

The structure of post-translational modifications of human heparin cofactor II isolated from human serum and from recombinant Chinese hamster ovary cells and their effects on heparin binding have been characterized. Oligosaccharide chains were found attached to all three potential N-glycosylation sites in both protein preparations. The carbohydrate structures of heparin cofactor II circulating in blood are complex-type diantennary and triantennary chains in a ratio of 6 : 1 with the galactose being > 90% sialylated with alpha 2-->6 linked N-acetylneuraminic acid.