Differential use of protease families for invasion by schistosome cercariae

Schistosomes are parasitic platyhelminths (flatworms) of birds and mammals. As a parasitic disease of humans, schistosomiasis ranks second only to malaria in global importance. Schistosome larvae (cercariae) must invade and penetrate skin as an initial step to successful infection of the vertebrate host. Proteolytic enzymes secreted from the acetabular glands of cercariae contribute significantly to the invasion process. In this comparative study, we analyzed protease activities secreted by cercariae of Schistosoma mansoni, Schistosoma japonicum and Schistosomatium douthitti. Using protease-family specific, irreversible active-site probes, fluorogenic peptidyl substrates, immuno-histochemistry and high-resolution mass spectrometry, considerable species differences were noted in the quantity and character of proteases. Serine proteases, the most abundant enzymes secreted by S. mansoni cercariae, were not identified in S. japonicum. In contrast, the acetabular gland contents of S. japonicum cercariae had a 40-fold greater cathepsin B-like activity than those of S. mansoni. Based on the present data and previous reports, we propose that cysteine proteases represent an archetypal tool for tissue invasion among primitive metazoa and the use of serine proteases arose later in schistosome evolution. Computational analysis of serine protease phylogeny revealed an extraordinarily distant relationship between S. mansoni serine proteases and other members of the Clan PA family S1 proteases.     

日本血吸虫中国大陆株抱雌沟蛋白编码基因的克隆和表达

根据曼氏血吸虫抱雌沟蛋白SmGcp序列和日本血吸虫编码抱雌沟蛋白保守区的基因片段jGcp1分别设计三对引物,以日本血吸虫中国大陆株成虫mRNA为模板 ,用RT－PCR法扩增出大小为1949bp的基因片段。经序列分析推断该基因片段含编码日本血吸虫抱雌沟蛋白基因的阅读框,与SmGcp碱基一致性为85％,其理论推测氨基酸组成与曼氏血吸虫抱雌沟蛋白的一致性为83．7％。将上述扩增的基因片段克隆到表达载体pET28c( )中,在大肠杆菌BL21中获得表达,融合表达产物分子量约为80kD。利用日本血吸虫成虫抗原免疫血清对该表达产物进行Western印迹检测,在预测位置出现了明显的识别条带,说明该编码日本血吸虫中国大陆株抱雌沟蛋白基因的表达产物具有抗原性。     

日本血吸虫中国大陆株TPI基因的克隆及其表达产物特性

磷酸丙糖异构酶（ＴＰＩ）是血吸虫病疫苗重要的候选抗原基因之一。参考日本血吸虫已发表的ＴＰＩｃＤＮＡ序列,以日本血吸虫中国大陆株成虫ｍＲＮＡ为模板,用ＲＴ－ＰＣＲ法快速克隆出一大小约８００ｂｐ的ＤＮＡ片段。ＤＮＡ序列分析证实,所扩增到的ＤＮＡ片段即为日本血吸虫中国大陆株磷酸丙糖异构酶（ＳｊＴＰＩｃ）基因。将该基因重组到表达型质粒ｐＧＥＸ－４Ｔ中,表达的ＧＳＴ融合蛋白分子量约５４ｋＤ。用谷胱甘肽琼脂糖凝胶亲和层析柱纯化的重组蛋白不仅纯度好,而且得率高,纯化产量可达３０ｍｇ／Ｌ培养物。免疫试验结果表明该重组蛋白具有良好的抗原性,是一种较为理想的抗原分子。     

Schistosoma japonicum: the pathology of experimental infection

The pathology of experimental schistosomiasis japonica is reviewed and compared with the pathology of schistosomiasis japonica in man and to some aspects of schistosomiasis mansoni and schistosomiasis haematobia in experimental animals. The induction of granulomas around Schistosoma japonicum eggs depends upon cell mediated immunity, as do the reactions to Schistosoma mansoni and Schistosoma haematobium eggs. However, the modulation of the reaction to S. japonicum eggs can be greatly influenced by antibody, while antibody has no effect on the granulomas around S. mansoni eggs. Adult worm pairs of S. japonicum tend to cluster in the mesenteric venules, and most eggs are laid in a few sites. This leads to large, focal intestinal lesions similar to the discrete lesions produced by S. haematobium in the intestine and urinary tract but in contrast to the widespread, diffuse lesions produced by S. mansoni. Comparison with S. japonicum infection in humans is limited chiefly by our scant knowledge of the pathology produced by S. japonicum in infected persons. Most such comparisons are, in any case, limited by the marked differences in the reactions of various experimental host species to the infection and by differences in the reaction of a given host species to different strains of the parasite.     

Invasion by schistosome cercariae: neglected aspects in Schistosoma japonicum

Skin invasion by schistosome cercariae was recently discussed in Trends in Parasitology. However, only Schistosoma mansoni was considered, possibly because this species predominates in laboratory studies (at least outside China). One may be tempted to extrapolate from the "model" S. mansoni to other schistosomes, but Schistosoma japonicum must not be neglected. This schistosome is distinguishable from others (particularly S. mansoni) by virtue of its remarkable speed and success of migration, as well as by specific biochemical and immunological features. This leads to the hypothesis that S. japonicum is atypical with respect to the enzymes that facilitate skin penetration.     

Schistosoma haematobium and S. japonicum: analysis of the ribosomal RNA genes and determination of the "gap" boundaries and sequences

We have determined the intragenic organization of the rRNA genes of Schistosoma haematobium and S. japonicum and found them to be similar to that of S. mansoni and other eukaryotes. An entire ribosomal repeat approximately 10 kbp in size from each species was isolated as a SalI fragment from a genomic library constructed in bacteriophage lambda. The segments encoding both the small and large rRNAs have been identified using three cloned EcoRI fragments of S. mansoni as probes. There were three EcoRI fragments (4.2, 3.0, 1.6 kbp) from S. haematobium and four EcoRI fragments (4.6, 2.3, 1.7, 1.0 kbp) from S. japonicum. As in a wide variety of organisms within the protostome phyla, the 28S rRNA in schistosomes contains a "gap" which separates it into two fragments. The length of the gap sequence in S. haematobium is 54 bases and it is identical to that in S. mansoni in both length and sequence. However, in S. japonicum the sequence is between 64-67 bases long. In each case, irrespective of the species, the gap is located at the same position within the 28S rRNA. Secondary structures of the gap sequence derived by computer analysis predict a conformation with the minimum free energy that has an UAAU tract in a hairpin loop for S. haematobium and an UAUU tract for S. japonicum.     

Schistosoma mansoni and Schistosoma japonicum: comparison of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase activities in adults.

Glucose-6-phosphate dehydrogenase activity in paired adult Schistosoma mansoni is about twice as great as in paired adult Schistosoma japonicum. 2. 6-phosphogluconate dehydrogenase activity accounts for 25.8% of the measured production of reduced nicotinamide adenine dinucleotide phosphate (NADPH) in S. japonicum but only 8.6% of the measured production of NADPH in S. mansoni. 3. These data suggest a species difference in 6-phosphogluconate metabolism.     

Schistosoma japonicum is less sensitive to cyclosporin A in vivo than Schistosoma mansoni.

We compared the toxic effects of cyclosporin A (CsA) on postmigratory immature Schistosoma mansoni and Schistosoma japonicum in mice. For each species, CsA was administered either relatively early or late during development. Exposure of 20-day-old S. mansoni to 1 subcutaneous dose of CsA (50 mg/kg) reduced the worm burden by 45% and induced herniae and/or boli of the gut in 32% of perfusable worms. These results agree with previous reports. In addition, CsA induced a marked liver shift (37% of total worm number). For S. japonicum, CsA was administered at 11 days postinfection (PI) because this species migrates more quickly. Killing of worms and damage to the gut were not observed, and only a slight liver shift occurred. Similarly, these effects were not recorded when CsA was administered at the later times of 34 days PI for S. mansoni and 17 days PI for S. japonicum. For both species, CsA stunted worms, affecting both sexes early PI but only females late PI. In conclusion, immature worms of S. japonicum are less sensitive than S. mansoni to CsA. Also, S. mansoni displays marked age-dependent differences in its sensitivity to CsA.     

Schistosoma: cross-reactivity and antigenic community among different species

It is not unusual to find common molecules among different species of the genus Schistosoma. When those molecules are antigenic, they may be used in immunodiagnosis and vaccines, but they could also be applied to taxonomic and evolutionary studies. To study cross-reactivity and antigenic community among different species of schistosomes, plasmas from laboratory animals infected with Schistosoma bovis, S. guineensis, S. rodhaini, S. haematobium, and four strains of S. mansoni were evaluated with a crude extract of adult worms of S. mansoni by Western blot. Using the multiple antigen blot assay, plasmas from these infected animals were exposed to a selected group of synthetic peptides from Sm28GST, Sm28TPI, Sm elastase, Sm97, Sm32, Sm31, and Sm Cathepsin L. The results presented herein demonstrate differential cross-reactivity and antigenic community among the Mansoni and Haematobium groups of schistosomes, which is of relevance as an additional new tool for phylogenetic studies of schistosomes as well as for diagnosis and vaccine purposes.     

Schistosoma japonicum: immunological characterization and detection of circulating polysaccharide antigens from adult worms

The antigenic constituents of a trichloroacetic acid (TCA)-soluble fraction of adult Schistosoma japonicum were studied with immunoelectrophoresis, and compared with those of Schistosoma mansoni. Eight TCA-soluble antigens of S. japonicum were demonstrated, five of which showed immunological identity with S. mansoni antigens. Of the eight antigens, five antigens with anodic motility were found as circulating antigens in S. japonicum-infected hamster and rabbit sera; the major circulating antigen was the circulating anodic antigen (CAA). Two other antigens, with cathodic motility, including the circulating cathodic antigen (CCA), were demonstrable as circulating antigens in S. mansoni infections, but not in S. japonicum infections. Most of the circulating antigens were shown to be gut-associated. Only one antigen, line 2, which was not demonstrable as circulating antigen and which was present in the parenchyma of the worms, was found to be specific for S. japonicum. Using an ELISA for the detection of CAA in the sera of S. japonicum-infected rabbits, a lower detection level of 100 ng CAA/ml serum was achieved. Moreover, at 7-8 weeks after infection, a direct relationship between worm burden and CAA level was demonstrated.     

Schistosoma japonicum: analysis of eggshell protein genes, their expression, and comparison with similar genes from other schistosomes.

As the egg of Schistosoma japonicum plays a central role in transmission and in pathogenesis, we sought to understand the molecular biology of egg formation. In this study we characterized an eggshell protein gene of S. japonicum and compared it with similar genes from S. mansoni and S. haematobium. To initiate studies on the eggshell protein genes of S. japonicum, a cloned genomic fragment containing an entire copy of a S. haematobium eggshell protein gene was used to identify three EcoRI hybridizing fragments of 2.6, 2.0, and 1.3 kbp in S. japonicum genomic DNA and to isolate three independent genomic clones from a S. japonicum genomic library. Two genomic clones, SJ 4-1 and SJ 3-1, contain at least two copies of the gene. The DNA sequence of a 2.0-kbp EcoRI fragment of clone SJ 3-1 showed two open reading frames (ORF), one of which showed a strong homology to the chorion proteins of insects. This ORF had 207 amino acids with a calculated molecular size of 18.5 kDa. The predicted peptide was glycine (50%) and tyrosine (10%) rich like other described schistosome eggshell proteins. Primer extension and the dideoxynucleotide sequence of the mRNA defined the cap site of the RNA and positioned the putative TATA and CAAAT elements and other cis-acting elements. Northern analysis demonstrated that eggshell protein mRNA was only detected in mature female parasites. The appearance of the female-specific mRNA was dependent on pairing with the male parasite and increased with egg production (as determined by hybridization intensity). A comparison of the DNA and deduced protein sequences of eggshell protein genes from S. japonicum with those of similar genes from S. mansoni and S. haematobium indicated that the genes are highly conserved, with S. mansoni and S. haematobium genes being more similar to each other than either is to S. japonicum.     

Schistosoma mansoni, S. haematobium, and S. japonicum: identification of genus- and species-specific antigenic egg glycoproteins

Immunoreactive egg glycoproteins of Schistosoma mansoni, S. haematobium, and S. japonicum which are genus- and species-specific, or react with sera of patients infected with other parasites, have been identified. Egg proteins were labeled with Iodine-125, and the concanavalin A-binding glycoproteins were immunoprecipitated with sera of patients infected with one of four species of Schistosoma or Trichinella spiralis, Taenia solium, Echinococcus granulosus, Entamoeba histolytica, or Wuchereria bancrofti. These immunoprecipitates were analyzed by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Despite the strikingly different patterns of glycoproteins of the African species, the antibody immune responses of patients infected with S. mansoni and S. haematobium were found to be so similar that differentiation could not be established. In contrast, sera of patients infected with S. japonicum, S. mekongi, or parasites not of the genus Schistosoma, immunoprecipitated fewer of the major S. mansoni or S. haematobium glycoproteins. Likewise, antibody immune responses of patients infected with the Oriental schistosomes (S. japonicum and S. mekongi) could not be differentiated. Only a few quantitative differences were noted between our S. mansoni egg glycoprotein extract and a standardized soluble egg antigen extract. This study provides an explanation for the extensive cross-reactivity observed in diagnostic assays which utilize various fractions of schistosomal egg extracts as the antigen.     

Isozyme patterns of Schistosoma japonicum and S. mansoni

Isozyme patterns of six enzymes, glucose-6-phosphate dehydrogenase, glucosephosphate isomerase, hexokinase, malate dehydrogenase, 6-phosphate dehydrogenase and phosphoglucomutase were examined in electrophoresed homogenates of adult male worms of Schistosoma japonicum and S. mansoni. In general, enzyme patterns obtained from the parasite homogenates differed from that of host (mouse) blood and muscle, indicating that electrophoretic patterns from parasite extracts are most probably of parasite origin. Adult male and female S. mansoni worms yielded identical patterns. However, all six enzyme patterns showed distinct differences between S. japonicum and S. mansoni. These results suggest that S. japonicum is clearly distinguishable from S. mansoni at the molecular level.     

Soluble proteins from Schistosoma mansoni and japonicum: a comparative biochemical and immunological analysis

1. Soluble proteins were recovered from male Schistosoma mansoni after homogenization in Tris-HCl buffer containing 0.6 M KCl and 1.0% Triton X-100 followed by preparative electrophoresis on SDS-gel. 2. Polyclonal antibodies produced in mice against the soluble fraction were used in comparative analysis of S. mansoni and S. japonicum using immunoblots and immunoprecipitation of in vitro translated polypeptides. 3. Small molecular weight polypeptide (20-22 kdalton), identified by infected mouse serum (IMS) on immunoblots, was predominant in females and was not cross-reactive with heterologous IMS. 4. A 41-43 kdalton polypeptide which appeared as a doublet on immunoblots performed with polyclonal antiserum 4M, was predominant in males of both species although the polypeptides of S. mansoni showed slower electrophoretic mobility, and therefore the larger size (43 kdalton), than that of S. japonicum. 5. Comparison of fluorograms of the immunoprecipitates of in vitro translated polypeptides indicated that IMS of S. mansoni precipitated two, 30 and 94 kdalton, polypeptides while the IMS of S. japonicum identified at 72 kdalton polypeptide. Antisera 1M, 2M and 4M also showed similarities and differences in polypeptides of in vitro translation products of the two species of Schistosoma.