George D. Cain

Karyotype evolution and sex chromosome differentiation in schistosomes (Trematoda, Schistosomatidae)

The morphology of C-banded metaphase chromosomes has been studied in two hermaphroditic and ten gonochoristic digenetic trematodes (schistosomes). Comparison of numbers and morphology of chromosomes indicates that the karyotype of primitive trematodes probably was composed of 10 (or 11) pairs of telocentric or subtelocentrie chromosomes, and reduction of chromosome numbers in advanced species resulted from centromeric fusion rather than elimination of chromosomes. Observation of heteromorphic chromosomes in a hermaphroditic trematode (Spirorchis) suggested a differentiation of “pre-sex” chromosomes in species ancestral to dioecious trematodes which possess distinctly differentiated sex chromosomes. Our results indicate that differentiation of Z and W chromosomes in the gonochoristic trematodes resulted from: (a) partial constitutive heterochromatinization of the W chromosome (Schistosoma mansoni and S. haematobium complexes, African schistosomes), (b) deletion of part of the W (S. japonicum and S. mekongi, Asian schistosomes), and (c) translocation of part of one sex chromosome onto another (Schistosomatium douthitti and Heterobilharzia americana, American schistosomes) with subsequent heterochromatinization of the W in H. americana.

Disruption and removal of the tegument from Schistosoma mansoni with triton X-100.

Tegumental membranes of Schistosoma mansoni were disrupted by 0.2% Triton X-100 in Tris-maleate buffered/Kreb-Ringers solution. Subsequent differential centrifugation of the disruption solution at 2,500 g and 30,000 g produced two pellets which contained membrane components. Examination of the carcass by scanning electron microscopy revealed that most of the exposed tegument of both male and female worms was removed, while surface membrane protected by close apposition of another surface (i.e., in the gynecophoral canal) remained intact. The parenchymal tissue (e.g., subtegumental muscle and tegumental perikarya), excretory and gut epithelia, and the teguments basement membrane also remained intact. The selectivity of the disruption suggests that membrane in both pellets originated almost exclusively from the tegument. Although larger morphological features (i.e., surface crypts) present in the intact tegument did not maintain their form in the 2,500 g pellet, the high specific activity of 3H-concanavalin A retained by this fraction, and the presence of numerous spines and large pieces of membrane, suggest that the 2,500 g pellet contained most of the worms disrupted surface membrane. Transmission electron microscopy demonstrated the presence of dense spinelike material and vesicles of various sizes and densities, as well as some mitochondria in the 30,000 g pellet. Low specific activity of 3H-concanavalin A in the post-30,000 g supernatant suggests that relatively few externally oriented, saccharide-containing molecules were solubilized from tegumental membranes by Triton X-100.

ENZYME POLYMORPHISM IN ASCARIS SUUM (NEMATODA)

The potential of multilocus electrophoretic studies for providing insight into the population biology of parasitic organisms was studied using the swine parasite Ascaris suum suum. Thirty-eight loci encoding enzymatic or nonenzymatic proteins have been resolved in extracts of adult worms by starch-gel electrophoresis. A preliminary study of variation in Ascaris from eastern Iowa revealed an average heterozygosity of 6.6%. Allele frequencies at six polymorphic loci were similar in males and females and genotypic frequencies were in accord with those expected in a single, randomly mating population; however, the significant linkage disequilibrium between Pep-2 and Es-3 suggested that there may be some genetic substructuring within Ascaris from Iowa. Genetic comparisons of Ascaris from Iowa with Ascaris from New Jersey and Maryland indicated slight differences between eastern and midwestern populations, as well as between the east coast localities. Larger samples from more locations are needed before any statistical significance can be attached to these differences; however, qualitative comparisons suggest that the differentiation is a biological reality. Knowledge of the population biology of this and other parasites may contribute to planning effective control programs.

The gene family encoding eggshell proteins of Schistosoma japonicum

The four closely related genes encoding eggshell proteins in the human parasite Schistosoma japonicum are described. A cDNA and a genomic DNA library were constructed and members of the eggshell protein gene family isolated. The four genes in this family do not contain introns, and differ in organization and nucleotide sequence from the related set of genes in Schistosoma mansoni and Schistosoma haematobium. The coding sequences of two of the S. japonicum genes and their flanking regions were determined. Transcription start sites for these genes were shown by primer extension analysis to occur 47 and 50 nucleotides in front of the start codon. A female-specific component in nuclear extracts binds to a DNA fragment containing conserved sequences upstream of the transcription start sites. The deduced protein sequences of 207 and 212 amino acids are composed of 50% glycine with continuous glycine regions as long as 11 residues. In vitro translations of male and female RNAs revealed female-specific translation products, the sizes of which were consistent with the eggshell proteins.

A simple method of obtaining an enriched fraction of tegumental brush border from Hymenolepis diminuta.

A method for isolating an enriched preparation of tegumental brush border from the tapeworm, Hymenolepis diminuta, is described. Combining incubation of whole tapeworms in Krebs-Ringer/tris-maleate solution containing a hemolytic saponin, low shear-force agitation, and differential centrifugation, a pellet is obtained at 2,500 g which contains a significant concentration of surface brush border. The content of brush border in this fraction is identified by the presence of numerous microvilli, increased specific radioactivity after surface tagging with 3H-Concanavalin A, and relatively little mitochondrial contamination (succinic dehydrogenase). Based on morphological criteria, fractions sedimenting with greater force contain dense vesicles and mitochondria from the outer portion of the tegument.

Characterization of polysaccharides of the eggs and adults of Hymenolepis diminuta

Polysaccharides and other complex carbohydrates were released by proteolysis of the chloroform-methanol insoluble residue of 10 day-old worms and eggs of Hymenolepis diminuta. Gas-liquid chromatographic analysis of alditol acetate derivatives of monosaccharides released from the polysaccharides by hydrolysis revealed that in the 10 day-old worm, glucose was the most abundant sugar, followed by galactose, glucosamine, galactosamine, fucose and possibly rhamnose. Mannose was least abundant and xylose was absent. In the egg, glucose and galactose were equally abundant, followed by the same sugars found in 10 day-old worms, and xylose was present. Uronic acid was detected in both fractions by specific chemical tests. None of the saccharide material from eggs and worms was susceptible to degradation by Streptomyces hyaluronidase, chondroitinase AC, and slightly susceptible to chondroitinase ABC, as shown by electrophoretic analysis on composite 2.2% acrylamide-agarose slab gels and 4.5/12.5% polyacrylamide gels before and after enzymatic treatment. One of the gel-separable bands, however, was degradable by both nitrous acid and Flavobacterium heparinase. Both bands from eggs were degradable by nitrous acid. These results suggest that eggs contain heparin and/or heparan sulfate and perhaps dermatan sulfate and that 10 day-old worms also have these polyglycans but possibly not chondroitin sulfate or hyaluronic acid.

Lipids from subcellular fractions of the tegument of Hymenolepis diminuta.

Lipids comprised 37% and 22.1%, respectively, of the day weights of brush border- and vesicle-rich fractions separated by differential centrifugation of isolated H. diminuta tegument. Neutral lipids of both fractions were rich in cholesterol, but also contained small amounts of glycerides, sterol esters, and (in brush borders) free fatty acids. Phosphatidyl ethanolamine was the most prevalent polar lipid in both fractions, and was particularly abundant (63.4% of total polar lipids) in vesicles; sphingomyelin, not previously reported from H. diminuta, was also present. Polar lipids of both tegumental fractions resembled each other but differed from whole worm polar lipids in fatty acid composition. Tegumental polar lipids contained lower levels of long-chain, polyunsaturated fatty acids than reported for corresponding lipids of whole worms.

Glycosaminoglycans of tegumental fractions of Hymenolepis diminuta

The teguments of 6 and 10 day-old Hymenolepis diminuta were removed with Triton X-100 and separated into brush border and vesicular fractions by differential centrifugation. Glycosaminoglycans (GAG) isolated from these tissues and from the denuded carcass were treated with specific GAG-degrading enzymes and other chemical agents and analyzed by sodium dodecyl sulfate-polyacrylamide, agarose gel and cellulose acetate electrophoresis. Both 6 and 10 day-old worm carcasses contained chondroitin sulfate, heparin/heparan sulfate and hyaluronic acid. The 10 day-old worm brush border and vesicle fractions contained chondroitin sulfate but no heparin-like material. Colorimetric analysis showed that the carcasses of both 6 and 10 day-old worms contained uronic acid. About 98% of the detectable uronic acid of 10 day-old worms was found in the carcass, and only 2% in the brush border fraction. No uronic acid was detected in the other tegumental fractions.

Anisakis, Phocanema, Contracaecum, and Sulcascaris spp.: electrophoresis and thermostability of alcohol and malate dehydrogenases from larvae.

Abstract Electrophoretic surveys were conducted on individual larvae of four anisakine nematode genera: Anisakis, Phocanema, Contracaecum , and Sulcascaris . The larval worms were obtained from a variety of fish and molluscan hosts from widely dispersed geographic regions. Of several enzymes detected, constant and apparently species-specific electrophoretic patterns were obtained for alcohol dehydrogenase (ADH, alcohol:NAD oxidoreductase, EC 1.1.1.1) and malate dehydrogenase (MDH, l -malate: NAD oxidoreductase, EC 1.1.1.37). ADH, in all but Sulcascaris sp., possessed two isozymes, the slower of which was sensitive to temperature and inhibitors. Failure of preelectrophoretic treatment with NAD to cause interconversion of these isozymes suggests that they are products of separate genetic loci. Both isozymes were maximally active with isopropanol, sec -butanol, and amyl alcohol. Within a given species, ADH showed negligible variation (i.e., apparent genetic polymorphism) with respect to individual larvae, site of larvae in the host, or geographical origin of the host. MDH from Anisakis, Sulcascaris , and Phocanema spp. possessed one, two, and three bands of activity, respectively; MDH is highly thermostable in Anisakis sp. but not in the other species.

Studies on the mechanism of cholesterol uptake by the rat tapeworm Hymenolepis diminuta (cestoda)

1. With increasing cholesterol content in mixed micelles, the rate of cholesterol uptake by the tapeworm approaches a limiting, maximal value. 2. This uptake is inhibited only 32-40% by other sterols, but is not markedly dependent on medium pH or tapeworm energy metabolism. 3. The competitive exchange diffusion of absorbed [14C]cholesterol could not be demonstrated. 4. The above results partially support the hypothesis that the tapeworm absorbs cholesterol by a specific carrier-mediated process. 5. Cholesterol uptake is reduced when the capacity of the micellar phase of the medium is increased, suggesting that uptake involves the intermediate partitioning of sterol from micelles into the aqueous phase of the medium.