Post-proline dipeptidyl-aminopeptidase from synaptosomal membranes of guinea-pig brain. A possible role for this activity in the hydrolysis of His-ProNH2, arising from the action of synaptosomal membrane pyroglutamate aminopeptidase on thyroliberin

In this paper we report that while 55% of the total post-proline dipeptidyl-aminopeptidase activity in guinea-pig brain is associated with the soluble fraction of the cells, the remaining activity is widely distributed throughout the particulate fractions. A significant portion of this particulate activity is, however, associated with a synaptosomal membrane fraction. The specific activity of this enzyme rose as the synaptosomal membrane fraction was prepared from a synaptosomal fraction and had previously risen at the synaptosomal fraction was prepared from a postmitochondrial pellet. The synaptosomal membrane post-proline dipeptidyl-aminopeptidase was released from the membrane by treatment with Triton X-100 and partially purified by chromatography on Sephadex G-200. By contrast with the soluble enzyme the partially purified solubilised synaptosomal membrane post-proline dipeptidyl-aminopeptidase was not inhibited by 1.0 mM p-chloromercuribenzoate, 1.0 mM N-ethylmaleimide or 0.5 mM puromycin but was inhibited by 0.5 mM bacitracin. The partially purified solubilised enzyme was capable of releasing His-Pro from His-Pro-Val, His-Pro-Leu, His-Pro-Phe and His-Pro-Tyr and of releasing Gly-Pro from Gly-Pro-Ala but could not release Arg-Pro from Arg-Pro-Pro or from Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg (bradykinin). It was also unable to release Pro-Pro from Pro-Pro-Gly or Glp-Pro from Glp-Pro-Ser-Lys-Asp-Ala-Phe-Ile-Gly-Leu-MetNH2 (eledoisin). Using [Pro-3H]thyroliberin we show that the membrane-bound enzyme converts His-ProNH2, produced by the action of the synaptosomal membrane pyroglutamate aminopeptidase, to His-Pro thus competing with the spontaneous cyclisation of His-ProNH2 to His-Pro diketopiperazine. Purified preparations of synaptosomal membrane pyroglutamate aminopeptidase were used to generate His-ProNH2, which could then be converted to His-Pro by the presence of the partially purified synaptosomal membrane post-proline dipeptidyl-aminopeptidase. This preparation was free of contaminating post-proline cleaving endopeptidase, carboxypeptidase P, aminopeptidase P, prolyl carboxypeptidase or proline dipeptidase.     

Distribution,properties, and functions of midgut carboxypeptidases and dipeptidases from Musca domestica larvae

Dipeptidase and carboxypeptidase A activities were determined in cells and luminal contents of the fore-, mid-, and hind-midgut of Musca domestica larvae. Dipeptidase activity was found mainly in hind-midgut cells, whereas carboxy-peptidase activity was recovered in major amounts in both cells and in luminal contents of hind-midguts. The subcellular distribution of dipeptidase and part of the carboxypeptidase A activities is similar to that of a plasma membrane enzyme marker (aminopeptidase), suggesting that these activities are bound to the microvillar membranes. Soluble carboxypeptidase A seems to occur both bound to secretory vesicles and trapped in the cell glycocalyx. Based on density-gradient ultracentrifugation and thermal inactivation, there seems to be only one molecular species of each of the following enzymes (soluble in water or solubilized in Triton X-100): membrane-bound dipeptidase (pH optimum 8.0; Km 3.7 mM GlyLeu, M_r 111,000), soluble carboxypeptidase (pH optimum 8.0; Km 1.22 mM N-carbobenzoxy-glycyl-L-phenylalanine (ZGlyPhe), M_r45,000) and membrane-bound carboxypeptidase (pH optimum 7.5, Km 2.3 mM ZGlyPhe, M_r58,000). The results suggest that protein digestion is accomplished sequentially by luminal trypsin and luminal carboxypeptidase, by membrane-bound carboxypeptidase and aminopeptidase, and finally by membrane-bound dipeptidase.     

Involvement of exopeptidases in dehydration tolerance of spring wheat seedlings

The observed inability of 6-d-old seedlings of spring wheat (Triticum aestivum L.) to tolerate the same water deficit as compared to the 4-d-old seedlings seems to be associated with the higher carboxypeptidase and lower aminopeptidase activities. Free amino acid pools differentiated also the 4-d-old seedlings from the older ones. Dehydration decreased the amino acid content in 4-d-old seedlings, increased it in 6-d-old seedlings and changed composition of amino acid pool. In tolerant phase of wheat seedling growth carboxypeptidase activity increased in response to water deficit and aminopeptidase activity increased in dehydrated seedlings, independently of their age.     

Kinin metabolism in human nasal secretions during experimentally induced allergic rhinitis

We have previously shown that both bradykinin and lysylbradykinin are generated in nasal secretions upon nasal challenge of allergic individuals with appropriate allergen and have suggested that these potent pro-inflammatory peptides may contribute to the pathogenesis of the allergic response. In this study we used a variety of synthetic substrates together with both thin layer and high performance liquid chromatography systems to examine the metabolism of these peptides in nasal secretions obtained by lavage. We now demonstrate that in addition to low levels of angiotensin-converting enzyme, nasal lavages contain an aminopeptidase activity that converts lysylbradykinin to bradykinin, and a carboxypeptidase that removes the C-terminal arginine from bradykinin and lysylbradykinin. The levels of all these activities are significantly increased after allergen challenge of allergic, but not nonallergic, individuals. The aminopeptidase and carboxypeptidase activities present in post-challenge lavages from allergic individuals convert lysylbradykinin to intermediate products (bradykinin and des (Arg10) lysylbradykinin) and eventually to des (Arg9) bradykinin. The nasal carboxypeptidase was activated 475% by 0.1 mM CoCl2 and was inhibited by the carboxypeptidase N inhibitor, MERGETPA (D-L-mercaptomethyl-3-guanidino-ethylthiopropanoic acid) (IC50 = 10 microM). The aminopeptidase activity was not affected by MERGETPA but was potently inhibited by amastatin and bestatin (IC50 = 0.05 microM and 3.0 microM, respectively). The activity of the aminopeptidase against its synthetic substrate was also inhibited by lysylbradykinin (IC50 = 50 microM). Both the carboxypeptidase and aminopeptidase activities had neutral pH optima and were inhibited by o-phenanthroline, but were unaffected by inhibitors of neutral endopeptidases (phosphoramidon) or angiotensin-converting enzyme (Captopril). The Km of bradykinin for the nasal carboxypeptidase was 139 +/- 14 microM (n = 3). We conclude that during the allergic response, nasal secretions contain aminopeptidase and carboxypeptidase activities that convert lysylbradykinin and bradykinin (B2 agonists) to des (Arg9) bradykinin (a B1 agonist). Because the nature of the kinin receptors in the nasal mucosa are currently unknown, it remains to be determined whether this metabolism results in the termination of biologic activity or the production of a biologically active moiety.     

The role of proteolytic enzymes in protein degradation during senescence of rice leaves

The role of proteolytic enzymes in protein degradation of detached and intact leaves of rice seedling ( Oryza sativa L. cv. Taiching Native 1) during senescence and of mature leaves during reproductive development was investigated. The amount of soluble protein decreased by about 50% in 2, 4, and 15 days for detached, intact and mature leaves, respectively. Three proteolytic enzyme activities were monitored with pH optima of 4.5 for hemoglobin-digesting proteinase, 5.5 for carboxypeptidase and 8.0 for aminopeptidase. No azocoll-digesting proteinase activity could be detected in rice leaves. Dialysis did not alter the activities of any of the three proteolytic enzymes. Acid proteinase activity and aminopeptidase activity were highly unstable during storage of the enzyme extracts at 4°C. Proteolysis was stimulated by inclusion of meroaptoethanal either in the extraction medium or the assay medium.
Acid proteinase, carboxypeptidase and aminopeptidase were all present in detached, intact and mature leaves throughout senescence. There seems to be a direct correlation between protein degradation and increases of acid proteinase and carboxypeptidase activity in seedling leaves (detached and intact) during senescence. In senescing (detached and intact) leaves of seedlings the acid proteinase activity developed first, while that of carboxypeptidase developed later. Acid proteinase and carboxypeptidase may play major roles in protein degradation of leaves from seedlings during senscence. During reproductive development, protein degradation was associated with decreases in the activities of acid proteinase, carboxypeptidase and aminopeptidase in mature leaves suggesting that the enzymes were less important for protein degradation in this system. Hence, the role of protelytic enzymes in protein degradation during senescence of rice leaves appears to depend largely on the leaf system used.     

Dipeptidyl-aminopeptidases and aminopeptidases in Dictyostelium discoideum

Extracts prepared from culminating cells of Dictyostelium discoideum have been found to contain dipeptidyl-aminopeptidases I (EC 3.4.14.1), II (EC 3.4.14.2), III (EC 3.4.14.4), arginine aminopeptidase (EC 3.4.11.6) and valine aminopeptidase. Dipeptidyl-aminopeptidase III was the most active of the dipeptidyl-aminopeptidases; its molecular weight was 158,000, with a pH optimum of 10.2 and gave a single peak of activity on gel-filtration or when fractionated by chromatofocusing. The specific activities of dipeptidyl-aminopeptidases I and III increased during development being highest during the culmination stage before decreasing during sorocarp formation; dipeptidyl-aminopeptidase II and arginine aminopeptidase decreased progressively throughout development. The presence of these dipeptidyl-aminopeptidases suggests the possibility that processing of peptides may be necessary during the development of Dictyostelium.     

Effects of orchidectomy and testosterone replacement on mouse pyrrolidone carboxypeptidase activity in the HPA axis.

Pyrrolidone carboxypeptidase, also known as pyroglutamyl aminopeptidase, removes pyroglutamyl terminal residues from biologically active peptides such as thyrotropin-releasing hormone. The aim of the present work was to study the influence of orchidectomy and testosterone replacement on soluble (pyrrolidone carboxypeptidase type I) and membrane-bound (pyrrolidone carboxypeptidase type II) activities in the hypothalamus-pituitary-adrenal axis. Forty male mice (Balb/C) were distributed into five groups: sham-operated controls, orchidectomized, and orchidectomized treated with increasing doses of testosterone in each group (3, 6 and 12 mg/kg). In the hypothalamus, orchidectomy increased pyrrolidone carboxypeptidase type I, whereas the highest dose of testosterone returned this activity to control levels. In the pituitary, neither pyrrolidone carboxypeptidase type I nor type II activities changed after orchidectomy, although both activities increased after administration of testosterone in both cases. On the other hand, orchidectomy increased pyrrolidone carboxypeptidase type I and type II activities in adrenal glands, while testosterone replacement returned it to control levels. These results suggest that testosterone differentially modulates pyrrolidone carboxypeptidase type I and type II activities, and therefore also their endogenous substrate regulation. Thus, the influence of sex hormones in the physiology of the HPA axis through the modulation of the Pyrrolidone carboxypeptidase type I and type II activities is of great importance on stress and neuropathology associated with HPA dysfunction     

Changes in exopeptidase activities in skeletal muscles during disuse

Some aminopeptidase activities, dipeptidase-, tripeptidase-, and carboxypeptidase activities were measured in two different types of skeletal muscle in rabbit soleus muscle as a slow oxidative, and gastrocnemius muscle as a fast glycolytic type after immobilization in full extension with a plaster cast for 1, 2, 4, 7, 14 or 28 days. In correlation to the higher protein turnover in red muscles, the activities except of leucine and alanine aminopeptidase were higher in the normal soleus muscle than in the gastrocnemius muscle. Much higher activities of the tested enzymes were obtained in the immobilized soleus muscle than in the normal one after 2 weeks of immobilization. In the gastrocnemius muscle the tested enzyme activities generally did not change or decrease. The results demonstrate that the peptidases play a role in the process of protein breakdown in normal and disused skeletal muscles.     

Activities of some peptidases and proteinases in germinating kidney bean, Phaseolus vulgaris

The activities of aminopeptidase (EC 3.4.11), dipeptidase (EC 3.4.13), carboxypeptidase (EC 3.4.16), naphthylamidase (EC 3.4.11) and proteinases (EC 3.4.21) were assayed in extracts from the cotyledons and the axial tissues of resting and germinating kidney beans ( Phaseolus vulgaris L. cv. Processor).
The activities of the alkaline peptidases (aminopeptidase hydrolyzing Leu-Tyr at pH 9.2 and dipeptidase acting on Ala-Gly at pH 8.5) and naphthylamidases (hydrolyzing Leu-β-naphthylamide at pH 6.4) were high in the cotyledons of resting seeds, but decreased during germination. This decrease was faster than the loss of the total nitrogen. On the contrary, the activities of carboxypeptidase (hydrolyzing carbobenzoxy-Phe-Ala at pH 5.9) and proteinases (acting on haemoglobin at pH 3.7 and on casein at pH 5.4 and 7.0) were low in the resting seeds, but increased during germination reaching their maximal values when the mobilization of nitrogen was highest. It has been suggested that the breakdown of storage proteins is initiated inside the protein bodies by acid proteinases and carboxypeptidases. Although the activities of the alkaline peptidases and naphthylamidases decreased during germination, these were still relatively high and enough for the completion of the proteolytic breakdown. Thus, it is suggested that, as a final step in a chain of events, the main role for the alkaline peptidases in the cotyledons of germinating seeds is to provide amino acids for the growth of the seedling.     

Characterization and distribution of digestive proteases of the stalk corn borer,Sesamia nonagrioides Lef. (Lepidoptera: Noctuidae)

Larval midgut extracts from the noctuid Sesamia nonagrioides Lef. were assayed for protease activity. Total proteolytic activity, as measured by azocasein hydrolysis, showed a pH optimum in the range 10.0 to 11.5, suggesting a digestive system based largely on serine-like proteases. The ability of midgut extracts to hydrolyze specific synthetic substrates, the elucidation of the pH at which maximal hydrolysis occurs, and their sensitivity to protease inhibitors confirmed the presence of the serine endoproteases: trypsin, chymotrypsin, and elastase; and the exopeptidases: carboxypeptidase A, carboxypeptidase B, and leucine aminopeptidase. The distribution of these digestive proteases along the gut sections and among the different midgut regions was examined. All types of endoproteases and exopeptidases were mainly located in the midgut, with less than 5% of the activity in the foregut and hindgut. When the two halves of the midgut were compared, all proteolytic activities were higher in the anterior portion of the midgut. Trypsin, chymotrypsin, elastase, and carboxypeptidase B activities were mainly located in the endoperitrophic space of the midgut, with some activity in the ectoperitrophic space, whereas aminopeptidase and carboxypeptidase A activities were preferentially located in the midgut epithelium. © 1996 Wiley-Liss, Inc.     

The intracellular proteolytic system of Yarrowia lipolytica and characterization of an aminopeptidase

Intracellular proteases of Yarrowia lipolytica have been scarcely studied. These enzymes may play an important role in nitrogen metabolism, posttranslational processing, nutritional stress, dimorphism, etc.; biochemical and genetic control of these enzymes can help in obtaining high-level expression of recombinant proteins in heterologous systems. In this study, we report the presence of three proteases: aminopeptidase yylAPE, carboxypeptidase yylCP and dipeptidyl aminopeptidase yylDAP, measured under several nutritional conditions. Yarrowia lipolytica produced the highest level of intracellular proteolytic enzymes, i.e. yylAPE, yylCP and yylDAP, in media with peptone during stationary growth phase. When soluble extracts were subjected to PAGE, and the three activities were revealed in gels with the corresponding substrates, only one band of activity was detected for each one. The three enzymes were affected by serine protease inhibitors. Chelating agents affected mainly APE activity. The aminopeptidase was purified by selective fractionation with ammonium sulfate and three chromatographic steps (anion exchange, hydrophobic interaction and gel filtration chromatography). The enzyme had a molecular mass of 97 kDa; optimal pH and temperature were 7.0 and 37 degrees C, respectively. The aminopeptidase showed a preference for lysine in the N-position. The K(m) value was 0.86 microM and V(max) value was 990.8 micromoL min(-1) mg(-1) for Lys-pNA.     

Partial purification of two distinct enkephalin-degrading aminopeptidases from human cerebrospinal fluid

In human cerebrospinal fluid, aminopeptidase, dipeptidyl aminopeptidase, dipeptidyl carboxypeptidase, and carboxypeptidase which were capable of hydrolyzing enkephalins were detected. Among these enzymes, two distinct aminopeptidase, designated C-AP1 and C-AP2, were partially purified. These enzymes were not purified thoroughly, but the characteristics of C-AP2 were similar to those of an aminopeptidase purified from monkey brain. But the inhibitory activity of amastatin on C-AP2 was stronger, and that of substance P was negligible. On the other hand, characteristics of C-Ap1 were extremely differ from those of C-AP2 or an aminopeptidase purified from monkey brain. C-AP1 had an optimum pH more in the acidic range (the highest at pH 6.0) and was not inhibited by any of the protease inhibitor tested including bestatin and amastatin.     

Proteolytic and Trypsin Inhibitor Activity in Germinating Jojoba Seeds (Simmondsia chinensis)

Changes in proteolytic activity (aminopeptidase, carboxypeptidase, endopeptidase) were followed during germination (imbibition through seedling development) in extracts from cotyledons of jojoba seeds (Simmondsia chinensis). After imbibition, the cotyledons contained high levels of sulfhydryl aminopeptidase activity (APA) but low levels of serine carboxypeptidase activity (CPA). CPA increased with germination through the apparent loss of a CPA inhibitor substance in the seed. Curves showing changes in endopeptidase activity (EPA) assayed at pH 4, 5, 6, 7, and 8 during germination were distinctly different. EPA at pH 4, 5, 6, and 7 showed characteristics of sulfhydryl enzymes while activity at pH 8 was probably due to a serine type enzyme. EPA at pH 6 was inhibited early in germination by one or more substances in the seed. Activities at pH 5 and later at pH 6 were the highest of all EPA throughout germination and increases in these activities were associated with a rapid loss of protein from the cotyledons of the developing seedling.     

Partial characterization of the proteolytic enzymes in the gut of the banana weevil, Cosmopolites sordidus, and effects of soybean Kunitz trypsin inhibitor on larval performance

The proteolytic enzymes in the gut of the banana weevil, Cosmopolites sordidus (Germar) (Coleoptera: Curculionidae), have been characterized. Both larvae and adults rely on a complex proteolytic system based on at least cathepsin D‐, cathepsin B‐, trypsin‐, chymotrypsin‐, leucine aminopeptidase‐, carboxypeptidase A‐, and carboxypeptidase B‐like activities. All endoproteolytic activities were higher in the anterior section of the gut, whereas the exopeptidases were evenly distributed in the anterior and middle sections, and almost no activity was detected in the posterior section. Gelatin‐containing gels confirmed the spatial organization of the proteolytic digestive process. According to this proteolytic profile, the STI (soybean Kunitz trypsin inhibitor) was tested in vivo to establish its potential as a resistance factor against C. sordidus. Newly hatched larvae fed on diets containing 0.2% (w/w) STI experience lower survival rates and display significant reductions in larval growth. Biochemical analysis carried out on guts of larvae reared on STI‐treated diet showed a reduction of trypsin‐like activity compared to that from larvae fed on control diet. This decrease was compensated with an induction of cathepsin B, whereas cathepsin D, chymotrypsin, and leucine aminopeptidase were not affected. These results are discussed as a basis for selecting appropriate inhibitors to obtain transgenic banana and plantain plants with enhanced resistance to this pest.     

Proteolysis in the axis of the germinating pea seed

Autoproteolytic, caseolytic and haemoglobin degrading activities, carboxypeptidase and aminopeptidase activities have all been measured in extracts prepared from the radicle of germinating pea seeds (Pisum sativum L.). With increasing time from the beginning of imbibition, the spectrum of protein degrading enzyme activities changed in a complex manner. As a proportion of total autoproteolytic activity, acid proteinases declined, while sulphydryl-and serine-active site endopeptidases accounted for increased proportions of the total activity. The distribution of protein degrading enzyme activities in the root tip compared with the balance of the root was determined after 4 days, at the onset of cell division in the root apex. On a fresh weight basis the tip was enriched ca. 2-fold in protein concentration and all of the exopeptidases. Autoproteolytic activity was concentrated in the tip to a lesser degree, and haemoglobin degrading activity not at all. In contrast, the root tip was depleted in caseolytic activity.Abbreviations AP aminopeptidase - BSA bovine serum albumin - CP carboxypeptidase - DAN diazoacetyl-D, L-norleucine - ME 2-mercaptoethanol - NEM N-ethyl maleimide - PMSF phenyl methyl sulphonyl fluoride - TCA trichloroacetic acid     

Specific inhibition of endopeptidase 24.16 by dipeptides.

The inhibitory effect of various dipeptides on the neurotensin-degrading metallopeptidase, endopeptidase 24.16, was examined. These dipeptides mimick the Pro10-Tyr11 bond of neurotensin that is hydrolyzed by endopeptidase 24.16. Among a series of Pro-Xaa dipeptides, the most potent inhibitory effect was elicited by Pro-Ile (Ki approximately 90 microM) with Pro-Ile greater than Pro-Met greater than Pro-Phe. All the Xaa-Tyr dipeptides were unable to inhibit endopeptidase 24.16. The effect of Pro-Ile on several purified peptidases was assessed by means of fluorigenic assays and HPLC analysis. A 5 mM concentration of Pro-Ile does not inhibit endopeptidase 24.11, endopeptidase 24.15, angiotensin-converting enzyme, proline endopeptidase, trypsin, leucine aminopeptidase, pyroglutamyl aminopeptidase I and carboxypeptidase B. The only enzyme that was affected by Pro-Ile was carboxypeptidase A, although it was with a 50-fold lower potency (Ki approximately 5 mM) than for endopeptidase 24.16. By means of fluorimetric substrates with a series of hydrolysing activities, we demonstrate that Pro-Ile can be used as a specific inhibitor of endopeptidase 24.16, even in a complex mixture of peptidase activities such as found in whole rat brain homogenate.     

Arginine and Lysine Aminopeptidase Activities in Chromaffin Granules of Bovine Adrenal Medulla: Relevance to Prohormone Processing

Abstract: Conversion of prohormones and neuropeptide precursors to smaller, biologically active peptides requires specific proteolytic processing at paired basic residues, which generates intermediate peptides with NH₂ and COOH termini extended with Lys or Arg residues. These basic residues are then removed by aminopeptidase and carboxypeptidase activities, respectively. Among the proteases involved in prohormone processing, the basic residue aminopeptidase activity has not been well studied. This report demonstrates arginine and lysine aminopeptidase activities detected with Arg-methylcoumarinamide (Arg-MCA) and Lys-MCA substrates in neurosecretory vesicles of bovine adrenal medulla [chromaffin granules (CG)], which contain endoproteolytic processing enzymes co-localized with [Met]-enkephalin and other neuropeptides. These arginine and lysine aminopeptidase activities showed many similarities and some differences. Both arginine and lysine aminopeptidase activities were stimulated by the reducing agent β-mercaptoethanol (β-ME) and inhibited by p-hydroxymercuribenzoate, suggesting involvement of reduced cysteinyl residues. The arginine aminopeptidase activity was stimulated by NaCl (150 mM), but the lysine aminopeptidase activity was minimally affected. Moreover, characteristic β-ME/NaCl-stimulated Arg-MCA cleaving activity and β-ME-stimulated Lys-MCA cleaving activity were detected only in CG and not in other subcellular fractions; these findings indicate the localization of these particular basic residue aminopeptidase activities to secretory vesicles. The arginine and lysine aminopeptidase activities showed pH optima at 6.7 and 7.0, respectively. K_m(app) values for the arginine and lysine aminopeptidase activities were 104 and 160 µM, respectively. Inhibition by the aminopeptidase inhibitors bestatin, amastatin, and arphamenine was observed for Arg-MCA and Lys-MCA cleaving activities. Inhibition by the metal ion chelators indicated that metalloproteases were involved; Co²⁺ stimulated the arginine aminopeptidase activity but was less effective in stimulating lysine aminopeptidase activity. In addition, the lysine aminopeptidase activity was partially inhibited by Ni²⁺ and Zn²⁺ (1 mM), whereas the arginine aminopeptidase activity was minimally affected. These results demonstrate the presence of related arginine and lysine thiol metalloaminopeptidase activities in CG that may participate in prohormone processing.     

Vacuoles are not the sole compartments of proteolytic enzymes in yeast

Localization in vacuoles, the lysosome-like organelle of yeast, was checked for several newly detected proteolytic enzymes. While aminopeptidase Co and carboxypeptidase S were found in vacuoles, proteinase D and proteinase E as well as a variety of other proteolytic activities detectable with the aid of chromogenic peptide substrates do not reside in this cell compartment.     

Enzymatic digestibility of peptides cross-linked by ionizing radiation

p6gestibility by proteolytic enzymes of peptides cross-linked by ionizing radiation was investigated. Small peptides of alanine and phenylalanine were chosen as model compounds and aminopeptidases and carboxypeptidases were used as proteolytic enzymes. Peptides exposed to gamma-radiation in aqueous solution were analysed by high-performance liquid chromatography before and after hydrolysis by aminopeptidase M, leucine aminopeptidase, carboxypeptidase A and carboxypeptidase Y. The results obtained clearly demonstrate the different actions of these enzymes on cross-linked aliphatic and aromatic peptides. Peptide bonds of cross-linked dipeptides of alanine were completely resistant to enzymatic hydrolysis whereas the enzymes, except for carboxypeptidase Y, cleaved all peptide bonds of cross-linked peptides of phenylalanine. The actions of the enzymes on these particular compounds are discussed in detail.     

Characterization and cDNA cloning of midgut carboxypeptidases from Trichoplusia ni

Carboxypeptidase A and carboxypeptidase B activities from the midgut of Trichoplusia ni larvae were characterized. In the T. ni larval midgut, the primary digestive carboxypeptidase activity was attributed to carboxypeptidase A, which was eight times more active than carboxypeptidase B. Both the midgut carboxypeptidase A and carboxypeptidase B exhibited maximal activities at pH 8.0-8.5 and were similarly susceptible to inhibition by potato carboxypeptidase inhibitor and phenanthroline. The midgut carboxypeptidase activities were analyzed in T. ni larvae fed on various diet sources and the results indicated that midgut carboxypeptidase activities per milligram of gut were similar regardless of the amount of dietary proteins or amino acids. However, midgut carboxypeptidase A activity was significantly higher in larvae exposed to soybean trypsin inhibitor and was significantly lower in larvae fed on broccoli foliage. From the T. ni larval midgut, five putative carboxypeptidase cDNAs were cloned, demonstrating that midgut carboxypeptidase activities are composed of multiple carboxypeptidase types. Sequence analysis indicated that the midgut carboxypeptidases were produced as secreted proenzymes which could be activated after removal of an N-terminal activation fragment by a trypsin. Two cloned cDNAs are predicted to code for carboxypeptidase A and one cDNA is predicted to code for a putative carboxypeptidase B. The other two cDNAs are highly similar to carboxypeptidase A and carboxypeptidase B in sequences, but their activity was not predictable.