Immunologic comparison of the conformations of apolipoprotein B. Investigation of methodologies for the reconstitution of delipidated and denatured apolipoprotein B with nonionic surfactants

Biochemical and immunological properties of different electrophoretic forms of juvenile hormone esterase from Trichoplusia ni (Hübner)

The two major electrophoretic forms (pI 5.5, 5.3) of juvenile hormone esterase were independently isolated from hemolymph of larval Trichoplusia ni. A simple and rapid preparation procedure of poly(ethylene glycol) precipitation, Sephadex gel filtration and chromatofocusing is described. Analytical isoelectric focusing showed only one peak of juvenile hormone esterase activity in the respective purified samples, whereas there were four (two major) such peaks in the hemolymph. The amino acid composition of the two forms was similar. The comparison of peptides obtained after protein fragmentation by cyanogen bromide showed that juvenile hormone esterases A and B were very similar, although definitely not identical, in amino acid sequence. The immunological comparisons of juvenile hormone esterases suggested that the number of polyclonal antibody binding sites on both forms was the same. There were no detected differences between immunoreactive properties of juvenile hormone esterase from the hemolymph of different stages of larval maturation. The influence of the active site of the enzyme on its antigenic properties was studied by immunocompetition. The inactive, heat-denatured juvenile hormone esterase can only partially protect against inhibition of its activity by the antibodies, whereas an organophosphate inhibitor which covalently binds to the catalytic center of the enzyme did not change the immunoreactive properties in comparison to active juvenile hormone esterase from hemolymph. These data show that heat-denatured juvenile hormone esterase has lost at least one or more epitopes, but the catalytic site of the enzyme is distinct from the epitopes.

Structural studies of apolipoprotein B: physical properties of the protein in guanidine hydrochloride

Apolipoprotein B was isolated from human plasma low-density-lipoprotein without precipitation by diethyl ether/ethanol extraction of the protein in 6 M guanidine hydrochloride. The physical properties of this protein, which contained a residuum of approximately 7% phospholipid, were examined in 6 M guanidine solution under reducing conditions. The circular dichroism spectrum was indistinguishable from that of a random coil protein. Sedimentation equilibrium analyses of apolipoprotein B by the meniscus depletion method of Yphantis (1984, Biochemistry 3, 297-317) were complicated by heterogeneity and nonideality despite the low concentrations employed. 63 analyses of the weight average (Mw) and z average (Mz) molecular weight were made on the apolipoprotein B from 12 subjects. The Mw observed was a function of initial concentration, rotor speed, and a heterogeneity index (Mz/Mw). Multiple linear regression of apolipoprotein B molecular mass against these parameters suggested that an Mw of 540,000 +/- 110,000 would be observed under apparently ideal and homogeneous conditions. The sedimentation coefficient and intrinsic viscosity of the reduced protein at 25 degrees C in 6 M guanidine were 2.13 S and 116 ml/g, respectively; these values predict molecular weights of 640,000 and 250,000, respectively, if apolipoprotein B was fully denatured into a random coil. Lack of agreement between these estimates and with the sedimentation equilibrium analysis can best be explained by compactness of structure and incomplete denaturation to a random coil state. Furthermore, an irreversible temperature dependence of apolipoprotein B reduced viscosity indicated that residual structure remained in solutions of 6 M guanidine hydrochloride/20 mM dithiothreitol. Taken together, the physical data demonstrate that apolipoprotein is a single polypeptide of approximately 540 kDa, whose structure resists denaturation under conditions where most proteins exist as random coils.

Biochemical and immunological comparisons between the human and boar proacrosin-acrosin proteinase systems

Biochemical and immunochemical methods have been used to examine the proacrosin-acrosin system of human and boar spermatozoa. Marked biochemical similarities including the relative molecular weights of proacrosin (approx. 55,000), alpha-acrosin (45,000-49,000) and beta-acrosin (34,000-38,000) were observed for both species. In addition, the time course of proacrosin autoconversion between 0 to 60 min revealed that the purified proacrosin from both species autoconverted to alpha-acrosin and then to beta-acrosin at approximately the same time intervals. Despite these apparent biochemical similarities, distinct immunological differences between the human and boar proacrosin-acrosin systems were observed. The human proacrosin antibody immunoreacted with purified human proacrosin and alpha-acrosin but not with beta-acrosin. The antibodies to boar proacrosin cross-reacted with the purified boar proacrosin, alpha-acrosin and beta-acrosin. The antibodies to human proacrosin also cross-reacted with boar proacrosin and to a weak extent with boar alpha-acrosin but not with the boar beta-acrosin. While antibodies to boar proacrosin did not react with any of the components of the human proacrosin system. Additionally, in the non-purified sperm extracts the human proacrosin antibody preparation reacted with several proteins larger than proacrosin and one with a molecular weight of approximately 34,000. In the non-purified boar sperm extracts, the antibodies to boar proacrosin only cross-reacted with the known components of the proacrosin-acrosin system suggesting a high degree of specificity. Thus, immunochemical evidence is presented that indicates there are specific structural differences which occur in the proacrosin-acrosin system of mammalian sperm.

Immunochemical characterization of juvenile hormone esterase from different species of Lepidoptera

Cross-immunoreactivity of juvenile hormone esterase (JHE) from different species was tested using anti-JHE (Trichoplusia ni) (Noctuidae) polyclonal antibody. Partial cross-reactivity was observed between JHE from Hyphantria cunea, Isia isabella (Arctuidae) and Spodoptera exigua (Noctuidae) in immunoblot analysis. Soluble antigen-antibody complex formation was observed between anti-JHE (T. ni) and antigen(s) from Heliothis virescens (Noctuidae) during immunotitration of antigen(s). Using an ELISA method the highest cross-reactivity was observed for both species from Arctuidae and lower cross-reactivity for antigen(s) from H. virescens.