Reduction of soluble Abeta and tau, but not soluble Abeta alone, ameliorates cognitive decline in transgenic mice with plaques and tangles

Increasing evidence points to soluble assemblies of aggregating proteins as a major mediator of neuronal and synaptic dysfunction. In Alzheimer disease (AD), soluble amyloid-beta (Abeta) appears to be a key factor in inducing synaptic and cognitive abnormalities. Here we report the novel finding that soluble tau also plays a role in the cognitive decline in the presence of concomitant Abeta pathology. We describe improved cognitive function following a reduction in both soluble Abeta and tau levels after active or passive immunization in advanced aged 3xTg-AD mice that contain both amyloid plaques and neurofibrillary tangles (NFTs). Notably, reducing soluble Abeta alone did not improve the cognitive phenotype in mice with plaques and NFTs. Our results show that Abeta immunotherapy reduces soluble tau and ameliorates behavioral deficit in old transgenic mice.     

Abnormal tau species are produced during Alzheimer's disease neurodegenerating process

Tau proteins were detected in human brain using two polyclonal antibodies: anti-paired helical filaments and anti-human native tau proteins. Both antisera detected identically the normal set of tau proteins in control brains. Moreover they detected two abnormal tau variants of 64 and 69 kDa exclusively in brain areas showing neurofibrillary tangles and senile plaques. Tau 64 and 69 were abnormally phosphorylated as revealed by the decrease in their molecular mass observed after alkaline phosphatase treatment. Therefore, tau 64 and 69 are specific markers of the neurofibrillary degeneration of the Alzheimer type and might be useful tools for studying the first pathological events that lead to neuronal death.     

Expression of Microtubule-Associated Proteins During the Early Stages of Neurite Extension by Brain Neurons Cultured in a Defined Medium

Immunoblotting analysis was used to identify the microtubule-associated proteins (MAPs) present in cultures of mouse brain neurons. Polyclonal antibodies were raised against the two main adult brain MAPs, i.e., MAP2 (300 kDa) and tau (60-70 kDa). Whatever the stage of the culture, which was performed in a defined medium (3 or 6 days), the anti-MAP2 serum detected several high-molecular-weight components (including MAP2) and an entity with 62-65 kDa. Anti-tau revealed essentially a major peak of 48 kDa (young tau) but also slightly cross-reacted with the 62-65 kDa entity. During the culture period (0-6 days) the cells developed progressively a dense neuritic network; the concentration of the different MAPs increased in parallel but at different rates depending on the different species. The increase in concentration of the high-molecular-weight components occurred before that of 48-kDa tau. This suggests that high-molecular-weight MAPs and 48-kDa tau might be involved respectively in the initiation and elongation of neurites. In contrast, and since the main developmental changes in tau composition seen in vivo did not occur during the time course of the culture, this transition might be related to later events of neuronal differentiation.     

The 165-kDa peptide of the purified skeletal muscle dihydropyridine receptor contains the known regulatory sites of the calcium channel

The dihydropyridine receptor purified from rabbit skeletal muscle yields in the presence of dithiothreitol and sodium dodecyl sulfate on polyacrylamide gels bands of apparent molecular mass 165 +/- 5, 130 +/- 5, 55 +/- 3, 32 +/- 2 and 28 +/- 1 kDa (chi +/- SEM, n = 12). Under nonreducing conditions, the 130 kDa and 28-kDa peptides migrate as a single peptide of 165 kDa. These peptides were separated on a HPLC size-exclusion column. The specific absorption coefficients of the isolated peptides were determined. From these a stoichiometry of 1:1.7 +/- 0.2:1.4 +/- 0.3 (chi +/- SEM of 12 experiments with three different preparations) was calculated for the 165-kDa, 55-kDa and 32-kDa peptides. The relative amount of the 130/28-kDa peptide varied with different preparations. Tryptic, chymotryptic and V-8 protease peptides of the isolated proteins suggested that the 130/28-kDa peptide was not related to the 165-kDa peptide. The dihydropyridine photoaffinity analog (+/-)-azidopine was specifically incorporated only into the 165-kDa peptide with an efficiency of about 2.4%. The azido analog of desmethoxyverapamil, LU 49888, was specifically incorporated into the same peptide with an efficiency of 1.5%. These results suggest that only the 165-kDa peptide contains the regulatory sites detected so far in the voltage-operated L-type calcium channel. They suggest further that the 130/28-kDa peptide, which migrates as a 165-kDa peptide under nonreducing conditions, does not contain high-affinity binding sites for the calcium channel blockers.     

Linking alterations in tau phosphorylation and cleavage during neuronal apoptosis

Neurofibrillary tangles (NFTs) are classic lesions of Alzheimer's disease. NFTs are bundles of abnormally phosphorylated tau, the paired helical filaments. The initiating mechanisms of NFTs and their role in neuronal loss are still unknown. Accumulating evidence supports a role for the activation of proteolytic enzymes, caspases, in neuronal death observed in brains of patients with Alzheimer's disease. Alterations in tau phosphorylation and tau cleavage by caspases have been previously reported in neuronal apoptosis. However, the links between the alterations in tau phosphorylation and its proteolytic cleavage have not yet been documented. Here, we show that, during staurosporine-induced neuronal apoptosis, tau first undergoes transient hyperphosphorylation, which is followed by dephosphorylation and cleavage. This cleavage generated a 10-kDa fragment in addition to the 17- and 50-kDa tau fragments previously reported. Prior tau dephosphorylation by a glycogen synthase kinase-3beta inhibitor, lithium, enhanced tau cleavage and sensitized neurons to staurosporine-induced apoptosis. Caspase inhibition prevented tau cleavage without reversing changes in tau phosphorylation linked to apoptosis. Furthermore, the microtubule depolymerizing agent, colchicine, induced tau dephosphorylation and caspase-independent tau cleavage and degradation. Both phenomena were blocked by inhibiting protein phosphatase 2A (PP2A) by okadaic acid. These experiments indicate that tau dephosphorylation precedes and is required for its cleavage and degradation. We propose that the absence of cleavage and degradation of hyperphosphorylated tau (due to PP2A inhibition) may lead to its accumulation in degenerating neurons. This mechanism may contribute to the aggregation of hyperphosphorylated tau into paired helical filaments in Alzheimer's disease where reduced PP2A activity has been reported.     

Possible cytoskeletal association of 69,000- and 68,000-dalton heat shock proteins and structural relations among heat shock proteins in murine mastocytoma cells

When murine mastocytoma cells (FMA 1) were heat shocked (42 degrees C for 4 h), nine heat shock proteins (HSPs) were detected by two-dimensional gel electrophoresis. Their apparent molecular weights were 100, 85, 69, 68, 32, 30, and 23 kDa (3 of 23 kDa). The structural homology of 4, 69, 68, 32, and 30 kDa, was demonstrated by two-dimensional tryptic peptide mapping. The 69- and 68-kDa HSPs were purified and rabbit antisera against these HSPs were prepared. A small fraction (less than 10%) of the 69- and 68-kDa HSPs were copurified with the microtubules and were present in the Triton X-100/KCl cytoskeletal fraction as shown by immunoblotting with the antiserum and by peptide mapping. Our results are consistent with the hypothesis of a cytoskeletal role for HSPs.     

Detergent-Insoluble Cortical Lewy Body Fibrils Share Epitopes with Neurofilament and τ

Lewy bodies are cytoskeletal inclusions associated with neuronal injury and death in idiopathic Parkinson's disease and other neurodegenerative disorders. The chemical composition of the 8-10-nm fibrils of the Lewy body is unknown, although they are related to both normal cytoskeletal elements and paired helical filaments of Alzheimer neurofibrillary tangles. From the Lewy body-rich cerebral cortex of patients with diffuse Lewy body disease we have isolated intact Lewy bodies using a high salt buffer/nonionic detergent gradient centrifugation procedure and extracted the constitutive fibrils with urea and sodium dodecyl sulfate. Urea/detergent-resistant Lewy body fibrils were solubilized with formic acid and found to contain a single protein band of 68 kDa, which was not found in identically prepared normal brain homogenates. The Lewy body derived-polypeptide was recognized on immunoblots by a polyclonal antibody that reacted with both the 68-kDa neurofilament subunit and the microtubule-associated protein tau. The 68-kDa Lewy body protein was not labeled by the monoclonal antibody tau-1 despite prior in vitro enzymatic dephosphorylation. We conclude that the detergent-insoluble component of the cortical Lewy body fibril shares epitopes with neurofilament and tau and may be a posttranslationally modified derivative of either neurofilament or tau with substantially altered biochemical and immunologic properties.     

Aggregation of detergent-insoluble tau is involved in neuronal loss but not in synaptic loss

Neurofibrillary tangles (NFTs), which consist of highly phosphorylated tau, are hallmarks of neurodegenerative diseases including Alzheimer disease (AD). In neurodegenerative diseases, neuronal dysfunction due to neuronal loss and synaptic loss accompanies NFT formation, suggesting that a process associated with NFT formation may be involved in neuronal dysfunction. To clarify the relationship between the tau aggregation process and synapse and neuronal loss, we compared two lines of mice expressing human tau with or without an aggregation-prone P301L mutation. P301L tau transgenic (Tg) mice exhibited neuronal loss and produced sarcosyl-insoluble tau in old age but did not exhibit synaptic loss and memory impairment. By contrast, wild-type tau Tg mice neither exhibited neuronal loss nor produced sarcosyl-insoluble tau but did exhibit synaptic loss and memory impairment. Moreover, P301L tau was less phosphorylated than wild-type tau, suggesting that the tau phosphorylation state is involved in synaptic loss, whereas the tau aggregation state is involved in neuronal loss. Finally, increasing concentrations of insoluble tau aggregates leads to the formation of fibrillar tau, which causes NFTs to form.     

Studies on Plastid-Nuclei (Nucleoids) in Nicotiana tabacum L. II. Disassembly and Reassembly of Proplastid-Nuclei Isolated from Cultured Cells

The effects of various concentrations of NaCl on the compactstructure of proplastid-nuclei (pp-nuclei) isolated from culturedtobacco cells were examined by fluorescence microscopy usinga DNA-specific fluorochrome, 4, 6-diamidino-2-phenylindole.Simultaneously, behavior of the four proplastid DNA-bindingproteins (mol wt: 69kDa, 31 kDa, 30kDa and 14kDa) identifiedpreviously (Nemoto et al. 1988) was investigated by SDS-polyacrylamidegel electrophoresis. When the concentration of NaCl was increased, the isolated pp-nucleiwere gradually dispersed, and at concentrations greater than0.4 M NaCl they were almost completely dispersed. During thisdisassembly process, the 31-kDa and 30-kDa proteins dissociatedfrom the pelletable pp-nuclear fraction to the supernatant at0.1 M NaCl, whereas the 69-kDa and 14-kDa proteins dissociatedto the supernatant only at 0.4 M NaCl. When the concentrationof NaCl was decreased again by dialysis, the pp-nuclei whichhad been dispersed by 2 M NaCl were gradually reassembled intocompact structures which were almost identical to the originalpp-nuclei. During this reassembly process, the 69-kDa and 14-kDaproteins first returned to the pellet fraction, and subsequentlythe 31-kDa and 30-kDa proteins moved into the pellet. This behavior of the proplastid DNA-binding proteins stronglysuggests that the association of these proteins with plastid-DNAis responsible for the compact organization of pp-nuclei. Inaddition, it was indicated that the 69-kDa and 14-kDa proteinsare more tightly bound to plastid-DNA than are the 31-kDa and30-kDa proteins. ⁴Present address: Biological Laboratory, Faculty of Science,Nara Women's University, Nara, 630 Japan. (Received August 24, 1988; Accepted February 28, 1989)     

Immunocytochemical evidence suggesting heterogeneity in the population of sea urchin egg cortical granules

Unfertilized eggs of many species of animals contain cortical granules, which are specialized secretory granules that upon fertilization release their contents from the egg. The unfertilized eggs of the sea urchin, Strongylocentrotus purpuratus, contain cortical granules that all display an identical and elaborate internal morphology. It has been assumed that they all contain identical components. In this report we present immunocytochemical data which indicate that the cortical granule population of S. purpuratus eggs is heterogeneous. Two monoclonal antibodies are shown to react to the spiral lamellae region of approximately 20% of the cortical granules, implying that the contents of the reactive granules differ from the contents of the majority of the population. An egg protein of greater than 320 kDa is recognized by the antibody. These antibodies also stain a 130-kDa protein expressed on the surface of primary mesenchyme cells in later development. Both antibodies recognize a post-translational modification of this protein. This suggests that an antigenically similar epitope is present both on the 130-kDa primary mesenchyme cell-specific protein and in the cortical granules. To determine if the primary mesenchyme and cortical granule proteins are related, a fusion protein antibody specific for a region of the 130-kDa protein was used to stain unfertilized eggs. This antibody did not stain cortical granules. Thus, 20% of the cortical granules contain a molecule that has an epitope antigenically similar to the post-translational modification recognized in primary mesenchyme cells by the monoclonal antibodies.     

The toxicity of tau in Alzheimer disease: turnover, targets and potential therapeutics

It has been almost 25 years since the initial discovery that tau was the primary component of the neurofibrillary tangles (NFTs) in Alzheimer disease (AD) brain. Although AD is defined by both β-amyloid (Aβ) pathology (Aβ plaques) and tau pathology (NFTs), whether or not tau played a critical role in disease pathogenesis was a subject of discussion for many years. However, given the increasing evidence that pathological forms of tau can compromise neuronal function and that tau is likely an important mediator of Aβ toxicity, there is a growing awareness that tau is a central player in AD pathogenesis. In this review we begin with a brief history of tau, then provide an overview of pathological forms of tau, followed by a discussion of the differential degradation of tau by either the proteasome or autophagy and possible mechanisms by which pathological forms of tau may exert their toxicity. We conclude by discussing possible avenues for therapeutic intervention based on these emerging themes of tau's role in AD.     

Sporulation-associated activation of Bacillus sphaericus larvicide.

Preparations of the larvicidal crystal from 46-h cultures of Bacillus sphaericus 2362 contain 125-, 110-, 63-, and 43-kilodalton (kDa) proteins (P. Baumann, B. M. Unterman, L. Baumann, A.H. Broadwell, S.J. Abbene, and R.D. Bowditch, J. Bacteriol. 163:738-747, 1985). The 63- and 43-kDa proteins, which have been purified, are not immunologically cross-reactive, and only the 43-kDa protein is toxic to mosquito larvae. Since antigenic determinants of the two smaller proteins have been detected in the higher-molecular-weight proteins (125 and 110 kDa), it has been suggested that the latter are precursors of the 43- and 63-kDa peptides. In the present study, purified 110-kDa protein was found to be toxic to the larvae of Culex pipiens (50% lethal concentration = 115 ng/ml). A luciferase-luciferin assay for intracellular ATP as well as an assay based on the exclusion of Trypan Blue by live cells indicated that the 110-kDa protein had no effect on tissue-culture-grown cells of C. quinquefasciatus, while cells exposed to the 43-kDa protein rapidly lost viability (50% lethal concentration = 54 microgram(s)/ml by the intracellular ATP assay). These findings suggested that the 110-kDa protein and, by extension, the 125-kDa protein are protoxins which are activated during sporulation by cleavage to a 43-kDa toxin. To further investigate the origins and relationships of the crystal proteins of B. sphaericus, we analyzed samples during the growth and sporulation of the culture. Synthesis of crystal proteins was initiated at the end of exponential growth and was completed after about 7 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Two-Dimensional Characterization of Paired Helical Filament-Tau from Alzheimer's Disease: Demonstration of an Additional 74-kDa Component and Age-Related Biochemical Modifications

Abstract: PHF-tau proteins are the major components of the paired helical filament (PHF) from Alzheimer's disease (AD) neurofibrillary lesions. They differ both qualitatively and quantitatively in their degree of phosphorylation when compared with native tau proteins. However, little is known about the extent and heterogeneity of phosphorylated sites or the isoform composition and the isoelectric variants of PHF-tau. Therefore, we have characterized PHF-tau proteins from cortical brain tissue homogenates of 13 AD patients using two-dimensional gel electrophoresis. Whatever the topographical origin of brain tissue homogenates, PHF-tau proteins shared the same two-dimensional gel electrophoresis profile made of a tau triplet of 55, 64, and 69 kDa. A 74-kDa hyperphosphorylated tau component was detected particularly in the youngest and most severely affected AD patients. This additional component of hyperphosphorylated tau was shown to correspond to the longest brain tau isoform. Furthermore, the isoelectric points of PHF-tau from older AD patients were significantly more basic, indicating a lower degree of phosphorylation. These results show that the severity of neurofibrillary degeneration of AD is modulated by age.     

Characterization of 69- and 100-kDa forms of 2-5A-synthetase from interferon-treated human cells

The existence of distinct 69- and 100-kDa forms of 2-5A-synthetase in addition to the smaller (40 and 46 kDa) forms has recently been established. Using specific monoclonal antibodies we investigated the induction, synthesis, and activity of 69- and 100-kDa 2',5'-oligoadenylate (2-5A) synthetases in interferon-treated human Daudi cells. Although induction of these synthetases is detectable in cells treated with as little as 1-5 units/ml of human alpha-interferon, higher concentrations are required for maximum synthesis of the 100 kDa than the 69-kDa protein. At 5 units/ml of interferon, enhanced synthesis of both proteins is detectable at 4 h with maximum synthesis occurring between 8 to 12 and 12 to 16 h for 69- and 100-kDa 2-5A-synthetases, respectively. At 24 h after addition of interferon, synthesis of these synthetases declines due to a decrease of active interferon in the culture medium. The synthesis of both synthetases is blocked by actinomycin D, and the half-life of these proteins is estimated to be 8 h. The activities of immunoaffinity purified 69- and 100-kDa synthetases are dependent on double-stranded (ds)RNA but show different requirements for optimum concentration of dsRNA and pH of the reaction. The apparent Km of 69- and 100-kDa synthetases for ATP is 1.7 X 10(-3) M and 3.6 X 10(-3) M, respectively. At optimum conditions for the activity of these enzymes, the pattern of 2',5'-linked oligoadenylates synthesized are different, the 69-kDa protein synthesizing higher oligomers than the 100-kDa species. Taken together, these results indicate that the 69- and 100-kDa 2-5A-synthetases are distinct proteins each with specific characteristics of induction and enzymatic activity.     

Monoclonal Antibody Analysis and Insecticidal Spectrum of Three Types of Lepidopteran-Specific Insecticidal Crystal Proteins of Bacillus thuringiensis

We have investigated the protein composition and the insecticidal spectrum of crystals of 29 Bacillus thuringiensis strains active against lepidopteran larvae. All crystals contained proteins of 130 to 140 kilodaltons (kDa) which could be grouped into three types by the molecular weight of the protoxin and the trypsin-activated core fragment. Proteins of the three types showed a characteristic insecticidal spectrum when tested against five lepidopteran species. Type A crystal proteins were protoxins of 130 or 133 kDa, which were processed into 60-kDa toxins by trypsin. Several genes encoding crystal proteins of this type have been cloned and sequenced earlier. They are highly conserved in the N-terminal half of the toxic fragment and were previously classified in three subtypes (the 4.5-, 5.3-, and 6.6-kilobase subtypes) based on the restriction map of their genes. The present study shows that different proteins of these three subtypes were equally toxic against Manduca sexta and Pieris brassicae and had no detectable activity against Spodoptera littoralis. However, the 4.5-, 5.3-, and 6.6-kilobase subtypes differed in their toxicity against Heliothis virescens and Mamestra brassicae. Type B crystal proteins consisted of 140-kDa protoxins with a 55-kDa tryptic core fragment. These were only active against one of the five insect species tested (P. brassicae). The protoxin and the trypsin-activated toxin of type C were 135- and 63-kDa proteins, respectively. Proteins of this type were associated with high toxicity against S. littoralis and M. brassicae. A panel of 35 monoclonal antibodies was used to compare the structural characteristics of crystal proteins of the three different types and subtypes. Each type of protein could be associated with a typical epitope structure, indicating an unambiguous correlation between antigenic structure and insect specificity.     

Sporulation-associated activation of Bacillus sphaericus larvicide

Preparations of the larvicidal crystal from 46-h cultures of Bacillus sphaericus 2362 contain 125-, 110-, 63-, and 43-kilodalton (kDa) proteins (P. Baumann, B. M. Unterman, L. Baumann, A.H. Broadwell, S.J. Abbene, and R.D. Bowditch, J. Bacteriol. 163:738-747, 1985). The 63- and 43-kDa proteins, which have been purified, are not immunologically cross-reactive, and only the 43-kDa protein is toxic to mosquito larvae. Since antigenic determinants of the two smaller proteins have been detected in the higher-molecular-weight proteins (125 and 110 kDa), it has been suggested that the latter are precursors of the 43- and 63-kDa peptides. In the present study, purified 110-kDa protein was found to be toxic to the larvae of Culex pipiens (50% lethal concentration = 115 ng/ml). A luciferase-luciferin assay for intracellular ATP as well as an assay based on the exclusion of Trypan Blue by live cells indicated that the 110-kDa protein had no effect on tissue-culture-grown cells of C. quinquefasciatus, while cells exposed to the 43-kDa protein rapidly lost viability (50% lethal concentration = 54 microgram(s)/ml by the intracellular ATP assay). These findings suggested that the 110-kDa protein and, by extension, the 125-kDa protein are protoxins which are activated during sporulation by cleavage to a 43-kDa toxin. To further investigate the origins and relationships of the crystal proteins of B. sphaericus, we analyzed samples during the growth and sporulation of the culture. Synthesis of crystal proteins was initiated at the end of exponential growth and was completed after about 7 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Formation of tau inclusions in knock-in mice with familial Alzheimer disease (FAD) mutation of presenilin 1 (PS1)

Mutations in the presenilin 1 (PS1) gene are responsible for the early onset of familial Alzheimer disease (FAD). Accumulating evidence shows that PS1 is involved in gamma-secretase activity and that FAD-associated mutations of PS1 commonly accelerate Abeta(1-42) production, which causes Alzheimer disease (AD). Recent studies suggest, however, that PS1 is involved not only in Abeta production but also in other processes that lead to neurodegeneration. To better understand the causes of neurodegeneration linked to the PS1 mutation, we analyzed the development of tau pathology, another key feature of AD, in PS1 knock-in mice. Hippocampal samples taken from FAD mutant (I213T) PS1 knock-in mice contained hyperphosphorylated tau that reacted with various phosphodependent tau antibodies and with Alz50, which recognizes the conformational change of PHF tau. Some neurons exhibited Congo red birefringence and Thioflavin T reactivity, both of which are histological criteria for neurofibrillary tangles (NFTs). Biochemical analysis of the samples revealed SDS-insoluble tau, which under electron microscopy examination, resembled tau fibrils. These results indicate that our mutant PS1 knock-in mice exhibited NFT-like tau pathology in the absence of Abeta deposition, suggesting that PS1 mutations contribute to the onset of AD not only by enhancing Abeta(1-42) production but by also accelerating the formation and accumulation of filamentous tau.     

Alz 50, a monoclonal antibody to Alzheimer's disease antigen, cross-reacts with tau proteins from bovine and normal human brain

Microtubule-associated protein tau from bovine brain reacted on immunoblots and on enzyme-linked immunosorbent assay with a monoclonal antibody, Alz 50, which has previously been found to bind to an Alzheimer disease-specific antigen. The apparent affinity of binding of Alz 50 to tau was 2.1 X 10(-9) M on competitive enzyme-linked immunosorbent assay, and it was in the same range as for Tau-1 (0.5 X 10(-9) M), an antibody raised against purified bovine tau proteins. Immunoblotting of trypsin-digested tau revealed differences between Alz 50 and Tau-1 binding sites. The binding of both antibodies to tau was not affected by prior treatment with phosphatase, indicating that the cross-reactivity of Alz 50 with tau is due to the presence of phosphate-independent epitope. This epitope then differs from phosphate-dependent tau epitopes often shared with other cytoskeletal proteins. Alz 50 and Tau-1 binding sites were present in all isoelectric (pI 6-8) and molecular weight variants of tau. In contrast, phosphate-dependent epitopes recognized by another tau-reactive antibody (NP14) were found mostly in acidic tau variants. Similarly to tau proteins from bovine brain, tau-enriched preparations from normal human brain contained Alz 50 and Tau-1 reactive sites in all isoelectric (pI 6.5-8.5) and molecular weight variants. Our observation of Alz 50 cross-reactivity with tau suggests a relationship between tau and the novel protein identified recently in Alzheimer brains.     

Interaction of the 140/130/110 kDa rhoptry protein complex of Plasmodium falciparum with the erythrocyte membrane and liposomes

During Plasmodium falciparum merozoite invasion into human and mouse erythrocytes, a 110-kDa rhoptry protein is secreted from the organelle into the erythrocyte membrane. In the present study our interest was to examine the interaction of rhoptry proteins of P. falciparum with the erythrocyte membrane. It was observed that the complex of rhoptry proteins of 140/130/110 kDa bind directly to a trypsin sensitive site on intact mouse erythrocytes, and not human, saimiri, or other erythrocytes. However, when erythrocytes were disrupted by hypotonic lysis, rhoptry proteins of 140/130/110 kDa were found to bind to membranes and inside-out vesicles prepared from human, mouse, saimiri, rhesus, rat, and rabbit erythrocytes. A binding site on the cytoplasmic face of the erythrocyte membrane suggests that the rhoptry proteins may be translocated across the lipid bilayer during merozoite invasion. Furthermore, pretreatment of human erythrocytes with a specific peptide derived from MSA-1, the major P. falciparum merozoite surface antigen of MW 190,000-200,000, induced binding of the 140/130/110-kDa complex. The rhoptry proteins bound equally to normal human erythrocytes and erythrocytes treated with neuraminidase, trypsin, and chymotrypsin indicating the binding site was independent of glycophorin and other major surface proteins. The rhoptry protein complex also bound specifically to liposomes prepared from different types of phospholipids. Liposomes containing PE effectively block binding of the rhoptry proteins to mouse cells, suggesting that there are two binding sites on the mouse membrane for the 140/130/110-kDa complex, one protein and a second, possibly lipid in nature. The results of this study suggest that the 140/130/110 kDa protein complex may interact directly with sites in the lipid bilayer of the erythrocyte membrane.     

Synthesis of azidotubulin: a photoaffinity label for tubulin-binding proteins

A photoaffinity label for the identification of tubulin-binding proteins was synthesized from phosphocellulose-purified bovine brain tubulin and (N-hydroxysuccinimidyl)-4-azidosalicylic acid. The azidotubulin derivative retained the ability to undergo temperature-dependent microtubule assembly and disassembly. When incubated with purified tau protein, the azidotubulin and tau formed cross-linked complexes upon photoactivation. When 125I-labeled azidotubulin was used to photoaffinity label tubulin-binding proteins within the kinetochore of isolated mammalian chromosomes, a 130-kDa band was identified on autoradiographs of SDS-polyacrylamide gels of the 125I-labeled azidotubulin/chromosome preparations. The 130-kDa complex was isolated by antitubulin affinity chromatography and analyzed by immunoblotting using both antitubulin and kinetochore-specific sera obtained from human patients with the autoimmune disease scleroderma CREST. The immunoblots demonstrated that the 130-kDa band that was observed on autoradiographs was a complex of a subunit of the tubulin dimer and an 80-kDa CREST-specific kinetochore protein. The binding of azidotubulin to the 80-kDa kinetochore protein was significantly decreased when chromosomes were treated with a mixture of 9 parts underivatized tubulin to 1 part azidotubulin prior to photolysis. The formation of the 130-kDa azidotubulin/kinetochore protein complex was not inhibited by pretreating the chromosomes with CREST serum prior to incubation with azidotubulin. Azidotubulin should be a useful probe for the identification and characterization of tubulin-binding proteins.