In order to gain insight into the gene expression profiles associated with anterior regeneration of the earthworm, Perionyx excavatus, we analyzed 1,159 expressed sequence tags (ESTs) derived from cDNA library early anterior regenerated tissue. Among the 1,159 ESTs analyzed, 622 (53.7%) ESTs showed significant similarity to known genes and represented 338 genes, of which 233 ESTs were singletons and 105 ESTs manifested as two or more ESTs. While 663 ESTs (57.2%) were sequenced only once, 308 ESTs (26.6%) appeared 2 to 5 times, and 188 ESTs (16.2%) were sequenced more than 5 times. A total of 803 genes were categorized into 15 groups according to their biological functions. Among 1,159 ESTs sequenced, we found several gene encoding signaling molecules, such as Notch and Distal-less. The ESTs used in this study should provide a resource for future research in earthworm regeneration.
We have cloned an earthworm-derived Factor Xa (FXa) inhibitor, with an excellent inhibitory specificity from the midgut of the Eisenia andrei. We designate this inhibitor eisenstasin. An eisenstasin-derived small peptide (ESP) was synthesized and we examined whether ESP played an essential role in FXa inhibition. Compared to antistasin-derived small peptides (ASP) originating from leech, ESP primarily exhibited a high level of FXa inhibition in chromogenic peptide substrate assays and revealed an approximately 2-fold greater inhibition of FXa cleavage of a target protein than ASP. This suggests that ESP could be an effective anti-coagulant that targets FXa during the propagation step of coagulation. ESP also inhibited proteinase-activated receptor 2-mediated FXa activation, which may trigger endothelial inflammation. Endothelial nitric oxide (NO) was significantly reduced by ESP (pϽ0.0001), indicating that protease-activated receptor-2 (PAR-2) was effectively inactivated. We also found that ESP reduced the expressions of pro-inflammatory cytokines (IL-1a a, IL-1b b, IL-8, IL-16, MCP-1, MIP-1a a and MIP-1b b) by cultured cells treated with both ESP and FXa. Our results provide the first evidence that ESP might interrupt coagulation cascades by inhibiting FXa, and thereby may effectively control the bidirectional alternation between coagulation and inflammation.
A couple of new antistasin family serine protease inhibitors have been isolated from the non-hematophagous earthworm, Eisenia andrei. These novel inhibitors have been designated as eisenstasin I and II. Similar to other antistasin family inhibitors, eisenstasin I and II feature 3 and 4 internal repeats, respectively, of a 24-29 amino acid sequence, both of which exhibit a conserved pattern of 6-cysteine/2-glycine at an identical position between the third and fourth cysteine residues. This suggests that the eisenstasins isolated from the earthworm are members of the antistasin family. The eisenstasins are 82% similar with regard to amino acid sequences and exhibit over 70% similarity with the antistasins from the earthworm Lumbricus rubellus, while also displaying less than 40% sequence similarity with the leech antistasins. Earthworm eisenstasins are basic proteins, primarily due to the frequent occurrence of arginine residues in their structure, especially at the C-terminal region. As arginine is a key residue for the substrate specificity of some serine proteases including FXa, it is thought that these multiple arginine residues may play a role in the inhibitory characteristics of the eisenstasins. Considering the structure and number of the internal repeats derived from a variety of animal species, the deletion as well as the duplication of all or part of an internal repeat may be implicated in the evolution of the structure and function of the antistasin family inhibitors.
A ParaHox gene cluster is composed of three genes (Gsx, Xlox, and Cdx). It has been proposed that all three ParaHox genes were present in the last common ancestor to the lophotrochozoan protostomes and the deuterostomes and that gene loss event has occurred in the ecdysozoan lineage. In this paper, we report the existence of all three ParaHox genes in Perionyx excavatus, a clitellate annelid. Although orthologs of each of the three ParaHox genes were previously discovered from other lopotrochozoan taxa, this study constitutes the first reported isolation of all three ParaHox genes in the same clitellate species.
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