The effect of endogeneous proteinase inhibitors on the prophenoloxidase activating enzyme,a serine proteinase from crayfish haemocytes

Three proteinase inhibitors have so far been isolated and purified from crayfish haemolymph. One of these, isolated from crayfish plasma, namely a trypsin inhibitor with a molecular mass of 155 kDa was found to inhibit a serine proteinase, ppA, which is involved in the activation of prophenoloxidase, and is localized in the haemocytes. Another high molecular mass proteinase inhibitor, an α₂-macroglobulin from crayfish plasma, which is a dimer of 190 kDa-subunits, was only inhibitory towards ppA to a lesser extent. A 23 kDa subtilisin inhibitor, purified from haemocytes, did not have any effect on the serine proteinase.We suggest that mainly the trypsin inhibitor, but to some extent also the α₂-macroglobulin, are important in the regulation of the prophenoloxidase activating cascade, as they both inhibit ppA, which in its active form has been shown to mediate prophenoloxidase activation.     

Involvement of both granular cells and plasmatocytes in phagocytic reactions in the greater wax moth, Galleria mellonella

Although it has been previously found by most authors that only plasmatocytes are involved in phagocytosis of non-self in the greater wax moth, Galleria mellonella, in the present study we demonstrate that in vitro, both granular cells and plasmatocytes are involved in this reaction, using monolayers of these haemocytes prepared from larval haemolymph by a differential cell fractionation method. The adhesion of granular cells to glassware and phagocytosis by granular cells of FITC-labelled silica beads were both greatly reduced by the presence of p-NPGB, a serine proteinase inhibitor, which is known to inhibit the activation of the prophenoloxidase cascade, but the reactions were only partly influenced by PTU, an inhibitor of phenoloxidase. These results suggest that an enhancing factor for both reactions is phenoloxidase itself or a component induced during the course of activation of the prophenoloxidase cascade, but not the melanised substance produced by the action of this reaction. For plasmatocytes, attachment to non-self was totally blocked by the absence of CaCl(2) or by the presence of EDTA at concentrations greater than 20 mM, and phagocytosis was greatly enhanced by CaCl(2), but suppressed by EDTA. These results suggest that calcium is a factor required for adhesion of plasmatocytes, and that it also functions to enhance their phagocytic action.     

Purification, characterization, and complete amino acid sequence of a trypsin inhibitor from amaranth (Amaranthus hypochondriacus) seeds.

A protein proteinase inhibitor was purified from a seed extract of amaranth (Amaranthus hypochondriacus) by precipitation with (NH4)2SO4, gel-filtration chromatography, ion-exchange chromatography, and reverse-phase high-performance liquid chromatography. It is a 69-amino acid protein with a high content of valine, arginine, and glutamic acid, but lacking in methionine. The inhibitor has a relative molecular weight of 7400 and an isoelectric point of 7.5. It is a serine proteinase inhibitor that recognizes chymotrypsin, trypsin, and trypsin-like proteinase activities extracted from larvae of the insect Prostephanus truncatus. This inhibitor belongs to the potato-I inhibitor family, showing the closest homology (59.5%) with the Lycopersicum peruvianum trypsin inhibitor, and (51%) with the proteinase inhibitor 5 extracted from the seeds of Cucurbita maxima. The position of the lysine-aspartic acid residues present in the active site of the amaranth inhibitor are found in almost the same relative position as in the inhibitor from C. maxima.     

Plasminogen-independent initiation of the pro-urokinase activation cascade in vivo. Activation of pro-urokinase by glandular kallikrein (mGK-6) in plasminogen-deficient mice

The plasminogen activation (PA) system is involved in the degradation of fibrin and various extracellular matrix proteins, taking part in a number of physiological and pathological tissue remodeling processes including cancer invasion. This system is organized as a classical proteolytic cascade, and as for other cascade systems, understanding the physiological initiation mechanism is of central importance. The attempts to identify initiation routes for activation of the proform of the key enzyme urokinase-type plasminogen activator (pro-uPA) in vivo have been hampered by the strong activator potency of the plasmin, that is generated during the progress of the cascade. Using gene-targeted mice deficient in plasminogen (Plg -/- mice) [Bugge, T. H., Flick, M. J., Daugherty, C. C., and Degen, J. L. (1995) Genes Dev. 9, 794-807], we have now demonstrated and identified a component capable of initiating the cascade by activating pro-uPA. The urine from Plg -/- mice contained active two-chain uPA as well as a proteinase capable of activating exogenously added pro-uPA. The active component was purified and identified by mass spectrometry-based peptide mapping as mouse glandular kallikrein mGK-6 (true tissue kallikrein). The pro-uPA converting activity of the mGK-6 enzyme, as well as its ability to cleave a synthetic substrate for glandular kallikrein, was inhibited by the serine proteinase inhibitor leupeptin but not by other serine proteinase inhibitors such as aprotinin, antithrombin III, or alpha(1)-antitrypsin. We suggest that mouse glandular kallikrein mGK-6 is an activator of pro-uPA in the mouse urinary tract in vivo. Since this kallikrein is expressed in a number of tissues and also occurs in plasma, it can also be considered a candidate for a physiological pro-uPA activator in other locations.     

Purification of a novel serine proteinase inhibitor from the skeletal muscle of white croaker (Argyrosomus argentatus)

A novel serine proteinase inhibitor has been purified to homogeneity from the skeletal muscle of white croaker (Argyrosomus argentatus). The purification was carried out by ammonium sulfate fractionation, DEAE-Sephacel, heating treatment followed by column chromatographies on SP-Sepharose, Sephadex G-150 and gel-filtration high performance liquid chromatography. The molecular mass of the inhibitor was 55 kDa as estimated by SDS-PAGE and gel filtration. It specifically inhibited a myofibril-bound serine proteinase (MBSP) isolated from the skeletal muscle of lizard fish (Saurida wanieso). No inhibition, however, was detected toward other serine proteinases such as bovine trypsin, bovine chymotrypsin and a myofibril-bound serine proteinase from carp (Cyprinus carpio) muscle. Interestingly, the sequences of tryptic digested peptide fragments of MBSPI revealed high identity to that of porcine phosphoglucose isomerase (PGI) (76%) and other PGIs. Furthermore, purified MBSPI exhibits PGI activity, suggesting the inhibitor is a protein closely related to PGI. When rabbit muscle PGI was investigated, it also specifically suppressed the activity of MBSP. It thus strongly suggests that MBSPI is actually PGI and conversely, PGI is a specific inhibitor toward myofibril-bound serine proteinase(s).     

A serine proteinase inhibitor from frog eggs with bacteriostatic activity

By Sephadex G-50 gel filtration, Resource Q anionic exchange and C4 reversed phase liquid high performance liquid chromatography, a proteinase inhibitor protein (Ranaserpin) was identified and purified from the eggs of the odour frog, Rana grahami. The protein displayed a single band adjacent to the molecular weight marker of 14.4 kDa analyzed by SDS-PAGE. The inhibitor protein homogeneity and its molecular weight were confirmed again by MALDI-TOF mass spectrometry analysis. The MALDI-TOF mass spectrum analysis gave this inhibitor protein an m/z of 14422.26 that was matched well with the result from SDS-PAGE. This protein is a serine proteinase inhibitor targeting multiple proteinases including trypsin, elastase, and subtilisin. Ranaserpin inhibited the proteolytic activities of trypsin, elastase, and subtilisin. It has an inhibitory constant (K(i)) of 6.2 x 10(-8) M, 2.7 x 10(-7) M and 2.2 x 10(-8) M for trypsin, elastase, and subtilisin, respectively. This serine proteinase inhibitor exhibited bacteriostatic effect on Gram-positive bacteria Bacillus subtilis (ATCC 6633). It was suggested that ranaserpin might act as a defensive role in resistance to invasion of pests or pathogens. This is the first report of serine proteinase inhibitor and its direct defensive role from amphibian eggs.     

Manduca sexta hemolymph proteinase 21 activates prophenoloxidase-activating proteinase 3 in an insect innate immune response proteinase cascade

Melanization, an insect immune response, requires a set of hemolymph proteins including pathogen recognition proteins that initiate the response, a cascade of mostly unknown serine proteinases, and phenoloxidase. Until now, only initial and final proteinases in the pathways have been conclusively identified. Four such proteinases have been purified from the larval hemolymph of Manduca sexta: hemolymph proteinase 14 (HP14), which autoactivates in the presence of microbial surface components, and three prophenoloxidase-activating proteinases (PAP1-3). In this study, we have used two complementary approaches to identify a serine proteinase that activates proPAP3. Partial purification from hemolymph of an activator of proPAP3 resulted in an active fraction with two abundant polypeptides of approximately 32 and approximately 37 kDa. Labeling of these polypeptides with a serine proteinase inhibitor, diisopropyl fluorophosphate, indicated that they were active serine proteinases. N-terminal sequencing revealed that both were cleaved forms of the previously identified hemolymph serine proteinase, HP21. Surprisingly, cleavage of proHP21 had occurred not at the predicted activation site but more N-terminal to it. In vitro reactions carried out with purified HP14 (which activates proHP21), proHP21, proPAP3, and site-directed mutant forms of the latter two proteinases confirmed that HP21 activates proPAP3 by limited proteolysis. Like the HP21 products purified from hemolymph, HP21 that was activated by HP14 in the in vitro reactions was not cleaved at its predicted activation site.     

Characterization of elastase associated with granulomatous tissue remodeling

Elastases have been reported to be involved in various types of tissue injury. In this study we detected hydrolytic activities for [3H]-elastin and Suc-Ala-Ala-Ala-pNA (SLAPN) in hepatic granulomas which became elevated in parallel with enlargement of the granulomas and disappearance of aldehyde-fuchsin-stained filaments in the lesions of mice infected with Schistosoma mansoni. The elastase was partially purified by gel filtration followed by anion-exchange chromatography. This enzyme has a molecular weight of 20-25k and hydrolyzed denatured collagen (azocoll), Glu-Pro-Val-pNA, SLAPN, and [3H]-elastin. Optimal pH was 7-8.5. It is a serine proteinase and distinct in its inhibitor profile from murine peritoneal macrophage elastase, which has been reported by others. Digestion of elastic fibers in vessel walls and fine fibrils in newly developed granulomas by the granuloma elastase was histochemically identified with aldehyde-fuchsin stain. These results indicate that a serine proteinase functions as a major elastase in granulomatous tissue remodeling and may account for the disappearance of elastic fibers and other elements of the matrix in fully developed granulomas.     

Purification, refolding and autoactivation of the recombinant cysteine proteinase EhCP112 from Entamoeba histolytica

The cysteine proteinase EhCP112 and the adhesin EhADH112 assemble to form the EhCPADH complex involved in Entamoeba histolytica virulence. To further characterize this cysteine proteinase, the recombinant full-length EhCP112 enzyme was expressed and purified under denaturing conditions. After a refolding step under reductive conditions, the inactive precursor (ppEhCP112) was processed to a 35.5 kDa mature and active enzyme (EhCP112). The thiol specific inhibitor E-64, but not serine or aspartic proteinase inhibitors arrested this activation process. The activation step of the proenzyme followed by the mature enzyme suggests an autocatalytic process during EhCP112 maturation. The experimentally determined processing sites observed during EhCP112 activation lie close to processing sites of other cysteine proteinases from parasites. The kinetic parameters of the mature EhCP112 were determined using hemoglobin and azocasein as substrates. The proteinase activity of EhCP112 was completely inhibited by thiol inhibitors, E-64, TLCK, and chymostatin, but not by general proteinase inhibitors. Since EhCP112 is a proteinase involved in the virulence of E. histolytica, a reliable source of active EhCP112 is a key step for its biochemical characterization and to carry out future protein structure-function studies.     

Identification of plasma proteases inhibited by Manduca sexta serpin-4 and serpin-5 and their association with components of the prophenol oxidase activation pathway

One innate immune response pathway of insects is a serine protease cascade that activates prophenol oxidase (pro-PO) in plasma. However, details of this pathway are not well understood, including the number and order of proteases involved. Protease inhibitors from the serpin superfamily appear to regulate the proteases in the pathway. Manduca sexta serpin-4 and serpin-5 suppress pro-PO activation in plasma, apparently by inhibiting proteases upstream of the direct activator of pro-PO. To identify plasma proteases inhibited by these serpins, we used immunoaffinity chromatography with serpin antibodies to isolate serpin-protease complexes that formed after activation of the cascade by exposure of plasma to bacteria or lipopolysaccharide. Covalent complexes of serpin-4 with hemolymph proteases HP-1 and HP-6 appeared in plasma activated by Gram-positive or Gram-negative bacteria, whereas serpin-4 complexes with HP-21 and two unidentified proteases were unique to plasma treated with Gram-positive bacteria. HP-1 and HP-6 were also identified as target proteases of serpin-5, forming covalent complexes after bacterial activation of the cascade. These results suggest that HP-1 and HP-6 may be components of the pro-PO activation pathway, which are activated in response to infection and regulated by serpin-4 and serpin-5. HP-21 and two unidentified proteases may participate in a Gram-positive bacteria-specific branch of the pathway. Several plasma proteins that co-purified with serpin-protease complexes, most notably immulectins and serine protease homologs, are known to be components of the pro-PO activation pathway. Our results suggest that after activation by exposure to bacteria, components of the pro-PO pathway associate to form a large noncovalent complex, which localizes the melanization reaction to the surface of invading microorganisms.     

Serine proteinase from Cucurbita ficifolia seeds

A new serine proteinase was isolated from Cucurbita ficifolia seeds by the purification procedure, which includes: extraction, salting out with ammonium sulphate, chromatography on CM-cellulose. Sephacryl S-300 gel filtration and h.p.l.c. on DEAE-2SW TSK column. The enzyme was homogeneous both in native and SDS PAGE. Three independent methods showed its molecular mass to be approximately 77 kDa. The enzyme was inhibited by specific serine proteinase organic inhibitors, and was active in the presence of inhibitors specific for other proteinase classes. Surprisingly, squash proteinase exhibited a very high and broad pH optimum with a maximum at 10.7. It hydrolysed many different peptide bonds in B-chain of insulin and was able to cleave four bonds in endogenous serine proteinase inhibitor (CMTI).     

Reconstitution of a branch of the Manduca sexta prophenoloxidase activation cascade in vitro: snake-like hemolymph proteinase 21 (HP21) cleaved by HP14 activates prophenoloxidase-activating proteinase-2 precursor

Upon wounding or infection, a serine proteinase cascade in insect hemolymph leads to prophenoloxidase (proPO) activation and melanization, a defense response against invading microbes. In the tobacco hornworm Manduca sexta, this response is initiated via hemolymph proteinase 14 (HP14), a mosaic protein that interacts with bacterial peptidoglycan or fungal beta-1,3-glucan to autoactivate. In this paper, we report the expression, purification, and functional analysis of M. sexta HP21 precursor, an HP14 substrate similar to Drosophila snake. The recombinant proHP21 is a 51.1 kDa glycoprotein with an amino-terminal clip domain, a linker region, and a carboxyl-terminal serine proteinase domain. HP14, generated by incubating proHP14 with beta-1,3-glucan and beta-1,3-glucan recognition protein-2, activated proHP21 by limited proteolysis between Leu(152) and Ile(153). Active HP21 formed an SDS-stable complex with M. sexta serpin-4, a physiological regulator of the proPO activation system. We determined the P1 site of serpin-4 to be Arg(355) and, thus, confirmed our prediction that HP21 has trypsin-like specificity. After active HP21 was added to the plasma, there was a major increase in PO activity. HP21 cleaved proPO activating proteinase-2 precursor (proPAP-2) after Lys(153) and generated an amidase activity, which activated proPO in the presence of serine proteinase homolog-1 and 2. In summary, we have discovered and reconstituted a branch of the proPO activation cascade in vitro: beta-1,3-glucan recognition--proHP14 autoactivation--proHP21 cleavage--PAP-2 generation--proPO activation--melanin formation.     

Proteolytic activation of tissue-type plasminogen activator by the culture media of mouse cancer cells

Human single-chain tissue-type plasminogen activator (tPA) was activated by the culture media of mouse B16 melanoma and Lewis lung carcinoma cells. This activation was due to the proteolytic conversion of single-chain tPA to two-chain tPA. Typical serine proteinase inhibitors, such as diisopropylfluorophosphate and aprotinin, strongly inhibited the proteolytic activation, suggesting that the enyzme responsible for this activation is a serine proteinase. Through a process of gel filtration, the molecular weight of the putative tPA-activating enzyme was estimated to be approximately 35 kDa. Expression of the tPA mRNA was demonstrated by Northern blot analysis both for the melanoma and carcinoma cells. Zymographic experiments showed that the culture medium of the melanoma cells contained active two-chain tPA. These results indicate that a common serine proteinase may be involved in the proteolytic activation of single-chain tPA in these cancer cells.     

Immune challenge induces N-terminal cleavage of the Drosophila serpin Necrotic

The Drosophila Necrotic protein is a serine proteinase inhibitor, which regulates the Toll-mediated innate immune response. Necrotic specifically inhibits an extracellular serine proteinase cascade leading to activation of the Toll ligand, Spätzle. Necrotic carries a polyglutamine extension amino-terminal to the core serpin structure. We show here that cleavage of this N-terminal extension occurs following immune challenge. This modification is blocked in PGRP-SA^semmelweiss mutants after Gram-positive bacterial challenge and in persephone mutants after fungal or Gram-positive bacterial challenge, indicating that activation of either of the Toll pathway upstream branches induces N-terminal cleavage of the serpin. The absolute requirement of persephone gene product for this cleavage indicates that Gram-positive bacteria activate a redundant set of proteinases upstream of Toll. Both full-length Necrotic and the core serpin are active inhibitors of a range of serine proteinases: the highest affinity being for cathepsin G and elastases. We found a 13-fold increase in the specificity of the core serpin over that of full-length Necrotic for one of the tested proteinases (porcine pancreatic elastase). This finding indicates that cleavage of the Necrotic amino-terminal extension might modulate Toll activation following the initial immune response.     

Mechanism of activation of inactive renin in human plasma by puff adder venom

Venom of the puff adder (Bitis arietans) contains a potent, basic, Mr 24,000 metalloproteinase activity that can destroy all detectable trypsin and chymotrypsin inhibitory activity, when venom is incubated with human plasma. We have found that during such incubation, concomitant activation of inactive renin occurs. In an examination of the mechanism involved we now report the activation, in addition, of plasma prekallikrein and serine proteinase activity, but not plasminogen, when human plasma is incubated with venom. Furthermore, venom was not able to release active trypsin from its complex with alpha 1-proteinase inhibitor and human renin was not inhibited by alpha 1-proteinase inhibitor. The activities in venom and venom/plasma mixtures were analysed using Sephacryl S-200 gel filtration and the effect of 10 mM EDTA and 5 mM phenylmethanesulphonyl fluoride on activities in column fractions was tested. The inactive-renin-activating, plasma prekallikrein-activating and serine proteinase-activating activities could be accounted for to a large extent by a venom metalloproteinase which was estimated to have a Mr of 24,000 by sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis. This enzyme activity appeared to complex with alpha 2-macroglobulin when venom was mixed with plasma. Since both EDTA and phenylmethanesulphonyl fluoride could inhibit the activation of inactive renin by this metalloproteinase, it is suggested that the enzyme activates serine proteinase(s), which then activate inactive renin. Plasma kallikrein may have a role in this process. Additional peaks of inactive-renin-activating activity eluted from Sephacryl S-200 at Mr 30,000 and 80,000 (minor) and an additional, minor peak of caseinolytic activity eluted at Mr 60,000. The Mr 24,000 metalloproteinase in venom may have considerable utility in activating inactive renin at physiological pH owing to its ability to destroy plasma proteinase inhibitors at the same time.     

Verification of elicitor efficacy of lipopolysaccharides and peptidoglycans on antibacterial peptide gene expression in Bombyx mori

We verified the efficacy of lipopolysaccharide (LPS) in activating the cecropin B gene (CecB) in an immune-competent Bombyx mori cell line. Strong activation of CecB by the LPSs from Escherichia coli, Pseudomonas aeruginosa, and Salmonella minnesota were completely eliminated after digestion of the LPSs with muramidase. The results clearly indicate that a polymer form of PGN in the LPSs elicited CecB. An oligonucleotide microarray screen revealed that none of the 16,000 genes on the array were activated by LPS in the cells. In contrast, E. coli PGN strongly elicited five antibacterial peptide genes and numerous other genes, and PGN from Micrococcus luteus activated only several genes. Semi-quantitative RT-PCR revealed that all antibacterial genes activated by both PGNs, but the extents were 10–100 times higher with E. coli PGN. Similarly, higher elicitor activity of E. coli than M. luteus was indicated using peptidoglycan recognition protein gene, which is involved in pro-phenol oxidase cascade.     

Isolation, characterization and cDNA sequencing of a Kazal family proteinase inhibitor from seminal plasma of turkey (Meleagris gallopavo)

The turkey reproductive tract and seminal plasma contain a serine proteinase inhibitor that seems to be unique for the reproductive tract. Our experimental objective was to isolate, characterize and cDNA sequence the Kazal family proteinase inhibitor from turkey seminal plasma and testis. Seminal plasma contains two forms of a Kazal family inhibitor: virgin (Ia) represented by an inhibitor of moderate electrophoretic migration rate (present also in the testis) and modified (Ib, a split peptide bond) represented by an inhibitor with a fast migration rate. The inhibitor from the seminal plasma was purified by affinity, ion-exchange and reverse phase chromatography. The testis inhibitor was purified by affinity and ion-exchange chromatography. N-terminal Edman sequencing of the two seminal plasma inhibitors and testis inhibitor were identical. This sequence was used to construct primers and obtain a cDNA sequence from the testis. Analysis of a cDNA sequence indicated that turkey proteinase inhibitor belongs to Kazal family inhibitors (pancreatic secretory trypsin inhibitors, mammalian acrosin inhibitors) and caltrin. The turkey seminal plasma Kazal inhibitor belongs to low molecular mass inhibitors and is characterized by a high value of the equilibrium association constant for inhibitor/trypsin complexes.     

Activation of progelatinase A (MMP-2) by neutrophil elastase, cathepsin G, and proteinase-3: a role for inflammatory cells in tumor invasion and angiogenesis

Gelatinase A (MMP-2), a matrix metalloproteinase (MMP) involved in tumor invasion and angiogenesis, is secreted as an inactive zymogen (proMMP-2) and activated by proteolytic cleavage. Here we report that polymorphonuclear neutrophil (PMN)-derived elastase, cathepsin G, and proteinase-3 activate proMMP-2 through a mechanism that requires membrane-type 1 matrix metalloproteinase (MT1-MMP) expression. Immunoprecipitation of human PMN-conditioned medium with a mixture of antibodies to elastase, cathepsin G, and proteinase-3 abolished proMMP-2 activation, whereas individual antibodies were ineffective. Incubation of HT1080 cells with either purified PMN elastase or cathepsin G or proteinase-3 resulted in dose-and time-dependent proMMP-2 activation. Addition of PMN-conditioned medium to MT1-MMP expressing cells resulted in increased proMMP-2 activation and in vitro invasion of extracellular matrix (ECM), but had no effect with cells that express no MT1-MMP. MMP-2 activation by PMN-conditioned medium or purified elastase was blocked by the elastase inhibitor alpha(1)-antitrypsin but not by Batimastat, an MMP inhibitor, showing that elastase activation of MMP-2 is not mediated by MMP activities. The PMN-conditioned medium-induced increase in cell invasion was blocked by Batimastat as well as by alpha(1)-antitrypsin, showing that PMN serine proteinases trigger a proteinase cascade that entails proMMP-2 activation: this gelatinase is the downstream effector of the proinvasive activity of PMN proteinases. These findings indicate a novel role for PMN-mediated inflammation in a variety of tissue remodeling processes including tumor invasion and angiogenesis.     

A serine proteinase homolog venom protein from an endoparasitoid wasp inhibits melanization of the host hemolymph

Activation of prophenoloxidase (proPO) in insects is a defense mechanism against intruding microorganisms and parasites. Pattern recognition molecules induce activation of an enzymatic cascade involving serine proteinases, which leads to the conversion of proPO to active phenoloxidase (PO). Phenolic compounds produced by pPO-activation are toxic to invaders. Here, we describe the isolation of a venom protein from the parasitoid, Cotesia rubecula, injected into the host, Pieris rapae, which is homologous to serine proteinase homologs (SPH). The data presented here indicate that the protein interferes with the proteolytic cascade, which under normal circumstances leads to the activation of proPO and melanin formation.     

Changes in proteinase activities and subcellular distribution during inactivation of alcohol oxidase in Candida boidinii.

Adaptation of methanol-grown Candida boidinii to ethanol utilization was accompanied by an increase in proteolytic activities, which behaved like known vacuolar enzymes. Degradation of alcohol oxidase protein was partially prevented by the serine proteinase inhibitor phenylmethanesulphonyl fluoride, but not by the carboxyl proteinase inhibitor pepstatin. Fractionation of cell-free extracts, by high-speed zonal centrifugation, of methanol-grown C. boidinii showed non-sedimentable and sedimentable proteolytic activities. Naturally occurring inhibitors of vacuolar proteinases were non-sedimentable. Fractionation of extracts prepared from methanol-grown cells which had been adapted to ethanol utilization for 5 h revealed significant changes in the sedimentability and distribution of proteolytic and acid phosphatase activities. These results suggest the possible involvement of a vacuolar process during alcohol oxidase degradation.