Purification and substrate specificity of two cysteine proteinases of Giardia lamblia.

The proteinase activity present in homogenates of trophozoites of Giardia lamblia, active on azocasein and urea-denaturated hemoglobin, was separated into two different enzymes by a series of purification procedures. These procedures included gel filtration on Fractogel TSK HW-55 (F), organomercurial agarose affinity chromatography, and ion exchange chromatography on DEAE-cellulose. By chromatography on Sephadex G-100, two purified enzymes exhibited relative molecular weights of Mr = 95,000 and 35,000 +/- 10%, respectively. On the basis of inhibition by thiol reagents and abrogation of this effect by dithiothreitol and cysteine, they were identified as cysteine proteinases. Proteinase I (Mr = 95,000) and proteinase II (Mr = 35,000) were active against the beta-chain of insulin releasing characteristic fragments. However, differences in substrate specificities of the two enzymes could be observed by using synthetic peptides that represent sequences 1-6, 8-18, and 20-30 of the insulin beta-chain. Furthermore, the synthetic tetrapeptides Arg-Gly-Phe-Phe, Arg-Gly-Leu-Hyp, and Arg-Arg-Phe-Phe were hydrolyzed by the two proteinases releasing Phe-Phe and Leu-Hyp, respectively. Compared with Arg-Gly-Phe-Phe, the rates of hydrolysis of Arg-Gly-Leu-Hyp and Arg-Arg-Phe-Phe at substrate concentrations of 1 mM were 91% and 63% (proteinase I) and 80% and 57% (proteinase II), respectively.     

Fasciola hepatica: A secreted cathepsin L-like proteinase cleaves host immunoglobulin

Adult Fasciola hepatica secrete a cysteine proteinase capable of cleaving host IgG close to the papain cleaving site. The proteinase was separated by size permeation chromatography. Gelatinsubstrate polyacrylamide gel electrophoresis analysis revealed that the proteinase migrates as 6 proteolytic bands in the apparent molecular size range 60–90 kDa. Based on pH profiles of activity, inhibition studies using diethylpyrocarbonate and the diazomethylketone Z-phe-ala-CHN₂, and characterising the substrate specificity of the enzymes using fluorogenic peptide substrates we have shown that the 60–90-kDa proteinases are cathepsin L-Iike proteinases.     

Purification and characterisation of a novel 34,000-Mr cell-associated proteinase from the dermatophyte Trichophyton rubrum

Abstract A novel cell-associated proteinase was purified to homogeneity from cytoplasmic antigen preparations of Trichophyton rubrum by sequential isoelectric focusing and gel filtration chromatography. The enzyme exhibited relative molecular masses of 34,000- M _r (non-reduced sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE)), 15,000- M _r (reduced SDS-PAGE) and 37,000- M _r (substrate SDS-PAGE). It had a pH optimum of 7.5 and a p I of 4.5. The proteinase exhibited broad substrate specificity and it was strongly inhibited by the serine proteinase inhibitors phenylmethylsulfonyl fluoride and chymostatin. The N-terminal amino acid sequence of the 34,000- M _r proteinase shared 50% homology with the deduced amino acid sequence of a Coccidioides immitis wall-associated chymotrypsin-type serine proteinase. This is the first cell-associated proteinase to be purified and characterised from T. rubrum and it would appear to be related to the chymotrypsin-type serine proteinases, a class of enzymes that have rarely been isolated from fungi. The function of the proteinase remains speculative although it may play a role in the development and subsequent proliferation of the fungus in vivo.     

Purification of cysteine proteinases from trichomonads using bacitracin-sepharose

Abstract Bacitracin affinity chromatography has been used to purify proteinases of the parasitic protozoon Tritrichomonas foetus . It proved superior to other affinity chromatography methods we have tested for the purification of trichomonad proteinases and should prove a useful procedure for purifying cysteine proteines from these parasites and other parasitic protozoa. The main cysteine proteinases of T. foetus were purified over 100-fold to be free from the majority of other cell proteins. About 90 μg of protein containing 1.56-fold more proteinase activity than was detectable in the original cell lysate was obtained from 10⁹ cells (7.2 mg protein). SDS-PAGE revealed that the eluate contained two main Coomassie blue-staining bands. N-terminal amino acid sequence analysis of these proteins confirmed that one of them was a cysteine proteinase with unusuall features. Cysteine proteinases were also purified from cell lysates of Trichomonas vaginalis and a N-terminal sequence determined. This is the first amino acid sequence information that has been obtained for trichomonad cysteine proteinases. The method was also used to purify proteinases from the medium of T. foetus cultures. Some selectivity in binding of the proteinases to the affinity column was found.     

Purification and characterization of an extracellular cysteine proteinase produced by Micrococcus sp. INIA 528

Micrococcus sp. INIA 528, a micro-organism isolated from raw ewe's milk Manchego cheese, produced an extracellular proteinase. This enzyme was purified to homogeneity from culture supernatant fluid in two chromatographic steps, with a 29-fold increase of specific activity and a 28% recovery of proteinase activity. The homogeneous protein was characterized biochemically. The molecular weight of the enzyme was determined to be 19.4 kDa by mass spectrometry. The purified enzyme was inhibited by E-64, PMSF and iodoacetamide and activated by cysteine, glutathione, dithiothreitol and β-mercaptoethanol. These results suggest that the enzyme is a cysteine proteinase. Optimal conditions for activity on azocasein were 34°C and a pH of 7.0. The proteinase preferentially degraded β-casein, while after a longer incubation period α^s1-casein was also extensively hydrolysed. The proteinase had a K _m value of 6.12 g 1⁻¹ for casein and 2.20 g 1⁻¹ for azocasein.     

Analysis of Leishmania proteinases reveals developmental changes in species-specific forms and a common 68-kDa activity

Abstract The proteinases of three species of Leishmania have been analysed by electrophoresis. Amastigotes of L. mexicana mexicana have several high-activity, low- M _r cysteine proteinases which are absent from log-phase promastigotes of L. m. mexicana and from all developmental stages of the other species analysed ( L. donovani and L. major ). Low-activity, low- M _r proteinases were present in populations of stationary-phase promastigotes of L. m. mexicana . All three species of Leishmania had higher M _r proteinases, a number of which showed developmental regulation, some of them being stage-specific. Significantly, at all stages of the life cycle in all three species a 68-kDa proteinase was apparent. In its size, sensitivity to inhibitors and ability to bind concanavalin A-agarose, this resembles the major surface protein thought to be present in all Leishmania species and which has recently been reported to possess proteinase activity in L. major promastigotes.     

Matrix Metalloproteinases in Dog Brains Exhibiting Alzheimer-Like Characteristics

Abstract: We have previously reported that the amount of the neuronal matrix metalloproteinase (MMP) MMP-9, capable of cleaving β-amyloid_1–40 predominantly at Leu³⁴-Met³⁵, is increased in a latent form in hippocampal specimens from AD patients and have suggested that the lack of activation of this enzyme may contribute to the deposition of β-amyloid in plaques. The current study addresses whether similar matrix proteinases are detectable in amyloid-positive and -negative brain specimens of aged beagles. Using quantitative zymography, three major neutral proteinases with molecular masses of 60, 95, and 280 kDa were readily detected. These enzymes have the characteristics of MMPs because they were inhibited by EDTA and 1,10-phenanthroline, and their activities were restored by addition of both Ca²⁺ and Zn²⁺. The 95- and 280-kDa proteinases cross-reacted with specific monoclonal antibodies to human MMP-9 (gelatinase B; EC 3.4.24.35). Canine MMP-9 was latent because activation by organomercurial treatment resulted in a characteristic decrease in molecular mass. Statistical analysis revealed no difference in the 60-kDa proteinase activity in amyloid-positive and -negative brain specimens. However, significantly increased amounts of latent MMP-9 were observed in amyloid-positive brain specimens ( p ≤ 0.05) compared with amyloid-negative brain specimens. The observations document that changes in MMP-9 expression in amyloid-positive beagle brains are similar to those reported in the human Alzheimer's disease hippocampus and suggest the possibility that insufficient activation of MMP-9 may contribute to β-amyloid accumulation, a hypothesis that needs to be further investigated.     

Purification and Characterization of Extracellular Proteinases of Aspergillus oryzae

The extracellular proteinases of Aspergillus oryzae EI 212 were separated into two active fractions by (NH4)2SO4 and ethanol fractionation followed by diethylaminoethyl-Sephadex A-50 and hydroxyapatite chromatography. The molecular weight was estimated by gel filtration to be about 70,000 and 35,000 for proteinases I and II, respectively. Optimum pH for casein and hemoglobin hydrolysis was 6.5 at 60 C for proteinase I and 10.0 at 45 C for proteinase II, and for gelatin hydrolysis it was 6.5 at 45 C for both enzymes. The enzymes were stable over the pH range 6 to 8 at 30 C for 60 min. The enzyme activity for both the proteinases was accelerated by Cu2+ and inhibited by Fe2+, Fe3+, Hg2+, and Ag+. Halogenators (e.g., N-chlorosuccinimide) and diisopropyl fluorophosphate inhibited proteinase II. Sulfhydryl reagents such as p-chloromercuribenzoate and iodoacetate inhibited proteinase I. Sulfhydryl compounds accelerated the action of both enzymes.     

Purification and characterization of lectins from Vicia hirsuta

The presence of three lectins in the seeds of Vicia hirsuta (L.) S. F. Gray, a wild-growing vetch, was shown. The main lectin was purified to homogeneity by buffer extraction, ammonium sulfate precipitation, affinity chromatography on Sephadex G-100 and isoelectric focusing in granulated gel. By chromatofocusing instead of isoelectric focusing the yield was increased 5-fold. The lectin has a pi of 6.4. It is composed of large β-subunits (M_r 19.200) and small α-subunits (M_r 12.800) in a 1:1 ratio. The subunits can be separated on Sephadex G-75 when equilibrated with 6 M guanidine-HCl. The amino acid composition of the two different subunits has been determined. No sulfur-containing amino acids are present. The lectin resembles the lectins from legumes from the same cross-inoculation group, i.e. Lens culinaris, Lens esculenta, Pisum satiyum and several Vicia spp. by the same type of sugar specificity and amino acid composition.     

Isoform-Specific Effects of Apolipoproteins E2, E3, and E4 on Cerebral Capillary Sequestration and Blood-Brain Barrier Transport of Circulating Alzheimer's Amyloid β

Abstract: Cerebral capillary sequestration and blood-brain barrier (BBB) permeability to apolipoproteins E2 (apoE2), E3 (apoE3), and E4 (apoE4) and to their complexes with sAβ_1–40, a peptide homologous to the major form of soluble Alzheimer's amyloid β, were studied in perfused guinea pig brain. Cerebrovascular uptake of three apoE isoforms was low, their blood-to-brain transport undetectable, but uptake by the choroid plexus significant. Binding of all three isoforms to sAβ_1–40 in vitro was similar with a K _D between 11.8 and 12.9 n M . Transport into brain parenchyma and sequestration by BBB and choroid plexus were negligible for sAβ_1–40-apoE2 and sAβ_1–40-apoE3, but significant for sAβ_1–40-apoE4. After 10 min, 85% of sAβ_1–40-apoE4 taken up at the BBB remained as intact complex, whereas free sAβ_1–40 was 51% degraded. Circulating apoE isoforms have contrasting effects on cerebral capillary uptake of and BBB permeability of sAβ. ApoE2 and apoE3 completely prevent cerebral capillary sequestration and blood-to-brain transport of sAβ_1–40. Conversely, apoE4, by entering brain microvessels and parenchyma as a stable complex with sAβ, reduces peptide degradation and may predispose to cerebrovascular and possibly enhance parenchymal amyloid formation under pathological conditions.     

Differential in vitro activation and deactivation of cysteine proteinases isolated during spore germination and vegetative growth of Dictyostelium discoideum.

Acid-activatable cysteine proteinases of Dictyostelium discoideum were first identified in spore extracts of strain SG1 using gelatin/SDS/PAGE, followed by acid treatments. Here we utilized the technique of acid activation to identify cryptic cysteine proteinases throughout auto-induced and heat-induced spore germination of D. discoideum strain SG2 and SG1. The major acid-activatable cysteine proteinase identified in SG2 and SG1 spore extracts was ddCP38 (D. discoideum cysteine proteinase with a molecular mass of 38 kDa) and ddCP48, respectively. Further investigation of these enzymes revealed that they were also base deactivatable with a treatment of ammonium chloride directly following acid activation. However, the most intriguing observation was the reversibility of the effects of base deactivation on the enzymes following a second treatment with acetic acid. Thus, we hypothesize that, unlike most mammalian cysteine proteinases which generally require the cleavage of a pro-peptide region for activation, these cysteine proteinases of D. discoideum likely undergo reversible conformational changes between latent and active forms. Moreover, we were able to detect these cryptic cysteine proteinases in the vegetative cells and early aggregates of both strains SG1 and SG2. Studies using 4-[(2S, 3S)-3-carboxyoxiran-2-ylcarbonyl-L-leucylamido]buty lguanidine, a cysteine proteinase inhibitor, revealed that acid activation of a portion of these proteinases was still achievable even after incubation with the inhibitor, further supporting the concept of two stable and reversible conformational arrangements of the enzymes. Thus, we speculate that the pH shuffles that modulate proteinase conformation and activity in vitro may be a reflection of the in vivo regulation of these enzymes via H+-ATPases and ammonia.     

Suppression of Mitochondrial Succinate Dehydrogenase, a Primary Target of β-Amyloid, and Its Derivative Racemized at Ser Residue

Abstract: β-Amyloid cores contain considerable amounts of d -Ser and d -Asp residues in Alzheimer's disease. We investigated the cytotoxic effects of various synthetic β-amyloids, including d -Ser-substituted derivatives, on primary cultured neurons and nonneuronal HeLa cells. β25–35, its d -Ser²⁶-substituted derivative, and β1–40 in 10–100 n M specifically suppressed mitochondrial succinate dehydrogenase activity [MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] reduction] in HeLa cells, which are dependent on ATP production mainly from glycolysis, but did not exert detectable cytotoxicity, assessed by dye exclusion test, NADH levels, and uptake of [³H]Leu and [³H]Tdr. The β-amyloids, on the other hand, did exert neurodegenerative effects on rat hippocampal cultured neurons in which ATP is mostly synthesized by the mitochondrion. The activities of β25–35 and [ d -Ser²⁶]β25–35 are dependent on their having β-structures and not random forms. Although β25–35 was degraded rapidly by proteinase(s) in brain extract or leucine aminopeptidase, [ d -Ser²⁶]β25–35 is fairly resistant. These results indicate that one of the primary targets of β-amyloids is suppression of mitochondrial succinate dehydrogenase, and the vulnerability of the brain to β-amyloids can be explained by its large dependence on mitochondrial energy production. Moreover, racemization of serine residues of β-amyloids may be involved in neurodegeneration and formation of senile plaques through escaping from the degradation process by brain proteinases.     

Purification and characterization of proteolytic enzymes of Leishmania mexicana mexicana amastigotes and promastigotes

Leishmania mexicana mexicana amastigote and promastigote soluble proteinases were purified using gel filtration and ion exchange chromatography. For the amastigotes, two main proteinase activity peaks were separated with both methods. These accounted for approximately 10% and 90% of the total activity. Characterization of the two activities for substrate specificity and sensitivity to inhibitors indicated that the major peak from both column methods contained enzymes with the characteristics of cysteine proteinases. SDS-polyacrylamide gel electrophoresis of the enzyme from the major peak purified by gel filtration revealed one polypeptide with a molecular weight in the region of 31 000. In contrast, the activity of the minor peak eluted from the columns was of higher molecular weight (67 000) and was similar to metalloproteinases. Purification of the soluble proteinases in the promastigote of L. m. mexicana produced only one activity peak from both column techniques. This activity (mol. wt 67 000) corresponded to the high molecular weight proteinase of the amastigote. The purified proteinases were active on 4-nitroanilide and 7-amino-4-methylcoumarin derivatives of various small peptides. The high molecular weight proteinases of both amastigotes and promastigotes were similarly active against most of the peptides, suggesting a low specificity of the enzymes. In contrast, the low molecular weight amastigote proteinases were particularly active against two of the substrates, namely BZ-Pro-Phe-Arg-Nan and Z-Phe-Arg-MCA. These results indicate that a highly active, substrate-specific, soluble proteinase, with characteristics of a cysteine proteinase, is produced upon transformation of the L. m. mexicana promastigote to amastigote. The discovery and characterization of this enzyme offers opportunities for the development of new antileishmanial agents.     

Biochemical identification of the bovine blood group M' antigen as a major histocompatibility complex class I-like molecule

Absorption and elution experiments showed that it was impossible to separate antibodies against blood group factor M' from antibodies against bovine lymphocyte antigen (BoLA) A16 in an antiserum showing haemolytic activity against M' as well as lymphocytotoxic activity against BoLA-A16. To elucidate the structural relationship between BoLA-A16 and blood group antigen M', immunoprecipitation experiments on red and white cell lysates isolated from M'-A16 positive and negative cattle were carried out. These results showed that M_r 44 000 and M_r 12000 polypeptides can be precipitated from both red and white cells isolated from M'-A16 positive animals, whereas no bands were seen in M'-A16 negative animals in precipitations with the same antibody. Precipitation with a crossreacting human β₂-microglobulin (β₂-m) specific antibody confirmed a class-I-like structure associated with β₂-m on M' positive red cells and the absence of such a structure on M' negative red cells. Sequential precipitations gave analogous results. Proteolytic degradation by papain and V8 protease did not reveal any substantial difference between red and white M'-A16 positive cells, but a slight difference in the pI of the immunoprecipitable components of red and white cells was observed. All together, this indicates that either the blood group antigen M' is the BoLA-A16 class I antigen or M' and BoLA-A16 are two different class I polypeptides with the same relative mass, sharing identical epitopes and both associated with β₂-m. Comparable results were obtained with M₁ and BoLA-A24.     

Mechanism of docosahexaenoic acid-induced inhibition of in vitro Aβ1–42 fibrillation and Aβ1–42-induced toxicity in SH-S5Y5 cells

The mechanism of the effect of docosahexaenoic acid (DHA; C22:6, n -3), one of the essential brain nutrients, on in vitro fibrillation of amyloid β (Aβ_1–42), Aβ_1–42-oligomers and its toxicity imparted to SH-S5Y5 cells was studied with the use of thioflavin T fluorospectroscopy, laser confocal microfluorescence, and transmission electron microscopy. The results clearly indicated that DHA inhibited Aβ_1–42-fibrill formation with a concomitant reduction in the levels of soluble Aβ_1–42 oligomers. The polymerization (into fibrils) of preformed oligomers treated with DHA was inhibited, indicating that DHA not only obstructs their formation but also inhibits their transformation into fibrils. Sodium dodecyl sulfate–polyacrylamide gel electrophoresis (12.5%), Tris–Tricine gradient(4–20%) gel electrophoresis and western blot analyses revealed that DHA inhibited at least 2 species of Aβ_1–42 oligomers of 15–20 kDa, indicating that it hinders these on-pathway tri/tetrameric intermediates during fibrillation. DHA also reduced the levels of dityrosine and tyrosine intrinsic fluorescence intensity, indicating DHA interrupts the microenvironment of tyrosine in the Aβ_1–42 backbone. Furthermore, DHA protected the tyrosine from acrylamide collisional quenching, as indicated by decreases in Stern–Volmer constants. 3-[4,5-Dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide-reduction efficiency and immunohistochemical examination suggested that DHA inhibits Aβ_1–42-induced toxicity in SH-S5Y5 cells. Taken together, these data suggest that by restraining Aβ_1–42 toxic tri/tetrameric oligomers, DHA may limit amyloidogenic neurodegenerative diseases, Alzheimer's disease.     

Amidation of β-Amyloid Peptide Strongly Reduced the Amyloidogenic Activity Without Alteration of the Neurotoxicity

Abstract: β-Amyloid accumulates in cerebral deposits in Alzheimer's disease, so to test the correlation between the neurotoxic and fibrillogenic capacity of β-amyloid, we synthesized a peptide homologous to fragment 25–35 of β-amyloid (β25–35) and amidated at the C-terminus (β25–35-NH₂). As the amidation strongly reduced the amyloidogenic capacity of β25–35, we compared its neurotoxic activity in the amidated (β25–35-NH₂) and nonamidated forms. The viability of primary cultures from fetal rat hippocampus was reduced in a dose-related manner (10–100 µ M ) similarly by β25–35 and β25–35-NH₂, whereas a scrambled peptide, amidated or nonamidated, did not alter the neuronal viability. The neurotoxic activity of β25–35-NH₂ is mediated by apoptosis as demonstrated by morphological and biochemical investigations. Electron microscopy examination of culture media with β25–35 or β25–35-NH₂ incubated with neuronal cells for 7 days confirmed the high level of fibrillogenic activity of β25–35 and the almost total absence of fibrils in the solution with β25–35-NH₂. Furthermore, staining with thioflavine S was used to identify amyloid fibrils, and only the cultures exposed to β25–35 exhibited intense staining associated with neuronal membranes. These data indicate that the neurotoxic activity of the β-amyloid fragment is independent of the aggregated state of the peptide.     

L-Asparaginase activity in Leptosphaeria michotii. Isolation and properties of two forms of the enzyme

The properties of L-asparaginase (EC 3.5.1.1) in Leptosphaeria michotii (West) Sacc., which has previously been shown to have an activity rhythm, were analyzed. Two forms of L-asparaginase were isolated from acetic acid and ammonium sulfate fractionations followed by DEAE-Sephacel chromatography. The activity of L-asparaginase changed rhythmically with the same period as that of crude extracts, but the rhythms of the two enzyme forms were out of phase. The two asparaginase forms differed in their isoelectric points and the substrate concentrations for attaining half-maximal velocity; non-Michaelis-Menten kinetics for hydrolysis of L-asparagine were observed. Analyses of asparaginase form II by polyacrylamide gel electrophoresis showed that four proteins, irrespective of the phase of the activity rhythm at which the enzyme was extracted, could be detected: asparaginase oligomer (M_r 130 000 to 140 000), its dimer, an aggregate (M_r 500 000 to 600 000) having a low asparaginase activity, and a protein (M_r 60 000) without asparaginase activity; the same proteins were found in asparaginase form I. These results indicate that L. michotii asparaginase could be implicated in a protein complex.     

Pathologic Amyloid β-Protein Cell Surface Fibril Assembly on Cultured Human Cerebrovascular Smooth Muscle Cells

Abstract: Cerebrovascular amyloid β-protein (Aβ) deposition is a key pathological feature of Alzheimer's disease and hereditary cerebral hemorrhage with amyloidosis-Dutch type (HCHWA-D). Aβ_1–40 containing the E22Q HCHWA-D mutation, but not wild-type Aβ_1–40, potently induces several pathologic responses in cultured human cerebrovascular smooth muscle cells, including cellular degeneration and a robust increase in the levels of cellular Aβ precursor. In the present study, we show by several quantitative criteria, including thioflavin T fluorescence binding, circular dichroism spectroscopy, and transmission electron microscopic analysis, that at a concentration of 25 µ M neither HCHWA-D Aβ_1–40 nor wild-type Aβ_1–40 appreciably assembles into β-pleated sheet-containing fibrils in solution over a 6-day incubation period. In contrast, at the same concentrations, HCHWA-D Aβ_1–40, but not wild-type Aβ_1–40, selectively binds and assembles into abundant fibrils on the surfaces of cultured human cerebrovascular smooth muscle cells. The simultaneous addition of an equimolar concentration of the dye Congo red prevents the cell surface fibril assembly of HCHWA-D Aβ_1–40. Moreover, Congo red effectively blocks the key pathologic responses induced by HCHWA-D Aβ_1–40 in these cells. The present findings suggest that the surface of human cerebrovascular smooth muscle cells may selectively orchestrate the assembly of pathogenic Aβ fibrils and that cell surface Aβ fibril formation plays an important role in causing the pathologic responses in these cells.     

Rapid Degeneration of Cultured Human Brain Pericytes by Amyloid β Protein

Abstract: Amyloid β protein (Aβ) deposition in the cerebral arterial and capillary walls is one of the major characteristics of brains from patients with Alzheimer's disease and hereditary cerebral hemorrhage with amyloidosis-Dutch type (HCHWA-D). Vascular Aβ deposition is accompanied by degeneration of smooth muscle cells and pericytes. In this study we found that Aβ_1–40 carrying the "Dutch" mutation (HCHWA-D Aβ_1–40) as well as wild-type Aβ_1–42 induced degeneration of cultured human brain pericytes and human leptomeningeal smooth muscle cells, whereas wild-type Aβ_1–40 and HCHWA-D Aβ_1–42 were inactive. Cultured brain pericytes appeared to be much more vulnerable to Aβ-induced degeneration than leptomeningeal smooth muscle cells, because in brain pericyte cultures cell viability already decreased after 2 days of exposure to HCHWA-D Aβ_1–40, whereas in leptomeningeal smooth muscle cell cultures cell death was prominent only after 4–5 days. Moreover, leptomeningeal smooth muscle cell cultures were better able to recover than brain pericyte cultures after short-term treatment with HCHWA-D Aβ_1–40. Degeneration of either cell type was preceded by an increased production of cellular amyloid precursor protein. Both cell death and amyloid precursor protein production could be inhibited by the amyloid-binding dye Congo red, suggesting that fibril assembly of Aβ is crucial for initiating its destructive effects. These data imply an important role for Aβ in inducing perivascular cell pathology as observed in the cerebral vasculature of patients with Alzheimer's disease or HCHWA-D.