Serine proteases in the spiny lobster olfactory organ: their functional expression along a developmental axis, and the contribution of a CUB-serine protease

Several serine proteases and protease inhibitors have been identified in the crustacean olfactory organ, which is comprised of the lateral flagellum of the antennule and its aesthetascs sensilla that house olfactory receptor neurons and their supporting cells. The function of these proteases in the olfactory organ is unknown, but may include a role in perireception (e.g., odor activation or inactivation) or in the development or survival of olfactory receptor neurons. To examine directly the function of proteases in the olfactory organ of the Caribbean spiny lobster Panulirus argus, we used different tissue fractions from the lateral flagellum in an enzyme activity assay with a variety of protease substrates and inhibitors. Trypsin-like serine protease activity occurs throughout the lateral flagellum but is enriched in the cell membranes from aesthetascs. Cysteine- and metalloprotease activities also occur in olfactory tissue, but are more abundant in tissue fractions other than aesthetascs. To assess the contribution of one of the olfactory serine proteases--CUB-serine protease (Csp)--Csp was immunoprecipitated using an antibody; results with the remaining fraction suggest that Csp accounts for at least 40% of the total serine protease activity in the olfactory organ. The amount of total serine protease activity follows a developmental axis in the lateral flagellum. Total protease activity is lowest in the proximal zone, which lacks aesthetascs, and the proliferation zone, where olfactory receptor neurons and associated cells are born, and highest in aesthetascs of the distally-located senescence zone, which has the oldest olfactory tissue.     

A CUB‐serine protease in the olfactory organ of the spiny lobster Panulirus argus

csp, a gene encoding a protein with high sequence identity to trypsinlike serine protease and CUB domains, was identified from a cDNA library from the olfactory organ (antennular lateral flagellum) of the spiny lobster Panulirus argus. The full‐length cDNA sequence of csp is 1801 bp, encoding a protein of 50.25 kD, with three domains: signal peptide, trypsinlike serine protease, and CUB (named for a class of compounds including C omplement subcomponents Clr/Cls, U egf, and B one morphogenic protein‐1). RT‐PCR, Northern blots, and immunoblots showed that csp is predominantly expressed in the lateral flagellum and eyestalk. Immunocytochemistry showed that Csp is present in olfactory (aesthetasc) sensilla around auxiliary cells (glia that surround the inner dendrites of olfactory receptor neurons, ORNs) and ORN outer dendrites. We propose that Csp is expressed and secreted by auxiliary cells, associates with ORN cell membranes or extracellular matrix via the CUB domain, and has trypsinlike activity. In the eyestalk, Csp is associated with cells surrounding axons between neuropils of the eyestalk ganglia. Possible functions in the olfactory organ and eyestalk are discussed. To our knowledge, this is the first report from any olfactory system of a gene encoding a protein with serine protease and CUB domains. © 2001 John Wiley & Sons, Inc. J Neurobiol 49: 277–302, 2001     

A CUB-serine protease in the olfactory organ of the spiny lobster Panulirus argus.

csp, a gene encoding a protein with high sequence identity to trypsinlike serine protease and CUB domains, was identified from a cDNA library from the olfactory organ (antennular lateral flagellum) of the spiny lobster Panulirus argus. The full-length cDNA sequence of csp is 1801 bp, encoding a protein of 50.25 kD, with three domains: signal peptide, trypsinlike serine protease, and CUB (named for a class of compounds including Complement subcomponents Clr/Cls, Uegf, and Bone morphogenic protein-1). RT-PCR, Northern blots, and immunoblots showed that csp is predominantly expressed in the lateral flagellum and eyestalk. Immunocytochemistry showed that Csp is present in olfactory (aesthetasc) sensilla around auxiliary cells (glia that surround the inner dendrites of olfactory receptor neurons, ORNs) and ORN outer dendrites. We propose that Csp is expressed and secreted by auxiliary cells, associates with ORN cell membranes or extracellular matrix via the CUB domain, and has trypsinlike activity. In the eyestalk, Csp is associated with cells surrounding axons between neuropils of the eyestalk ganglia. Possible functions in the olfactory organ and eyestalk are discussed. To our knowledge, this is the first report from any olfactory system of a gene encoding a protein with serine protease and CUB domains.     

Rosette-type tegumental glands associated with aesthetasc sensilla in the olfactory organ of the Caribbean spiny lobster, Panulirus argus

The lateral antennular flagellum of decapod crustaceans bears unique olfactory sensilla, namely the aesthetascs, and other sensilla types. In this study, we identify a new major tissue in the lateral flagellum of the Caribbean spiny lobster, Panulirus argus, namely “aesthetasc tegumental glands” (ATGs), based on immunostaining with antibodies against CUB serine protease (Csp), in situ hybridization with csp-specific probes, labeling with the F-actin marker phalloidin, labeling with the nuclear marker Hoechst 33258, and staining with methylene blue. Each ATG has 12–20 secretory cells arranged in a rosette. Each secretory cell has a Csp-immunoreactive basal portion and an apical portion containing granular material (metachromatic staining indicative of acid mucopolysaccharides). At the center of each secretory rosette is a phalloidin-positive common locus that gives rise to a main drainage duct projecting toward the cuticle. Scanning electron and light microscopy show that thin ducts traverse the cuticle and connect to “peg pores” proximal to the bases of the aesthetascs, with 3.4 peg pores per aesthetasc. Since the number of common loci is correlated with the number of peg pores, we conclude that each pore represents the outlet of one ATG, and that the secretions are released from them. We conclude further that ATGs and aesthetascs are functionally linked. We hypothesize that ATG secretions have antifouling and/or friction-reducing properties, and that they are spread over the surface of the aesthetascs by antennular grooming. A review of the literature suggests that ATGs are common in decapod crustacean antennules, and that rosette glands and grooming might be functionally coupled in other body areas.This study was supported by NSF IBN 0077474 and NIH DC00312.     

Comparison of turnover in the olfactory organ of early juvenile stage and adult Caribbean spiny lobsters

Proliferation and turnover of neurons occurs in the olfactory systems of many animals. In this study, we examined developmental changes in turnover in the olfactory organ of the Caribbean spiny lobster Panulirus argus by examining two life-history stages—early juveniles and young adults. Turnover was compared using external morphology of the olfactory organ before and after molting to determine addition and loss of aesthetascs and other chemosensilla, and BrdU labeling to identify newly proliferated cells. The number of olfactory receptor neurons (ORNs) innervating each aesthetasc increased only slightly over development, but there was a net increase of olfactory sensory units (i.e. aesthetascs and their ORNs) at each molt. This increase was similar in early juveniles and young adults when expressed as absolute number of ORNs neurons but greater in early juveniles when expressed as a proportion of existing ORNs. The net increase in olfactory sensory units in early juveniles is due solely to addition, since virtually no aesthetascs are lost. In contrast, the net increase in olfactory sensory units in adults reflects addition of new units accompanied by considerable loss of old units. These developmental changes result in expansive enlargement of the olfactory organ without turnover in early juveniles, and a more modest growth combined with continuous turnover and replenishment of ORNs in adults.     

Serine protease inhibitor Spi2 mediated apoptosis of olfactory neurons

The olfactory epithelium of adult mouse, where primary sensory neurons are massively committed to apoptosis by removal of their synaptic target, was used as a model to determine in vivo mechanisms for neuronal cell death induction. A macro-array assay revealed that the death of olfactory neurons is accompanied with over-expression of the serine protease inhibitor Spi2. This over-expression is associated with decreased serine protease activity in the olfactory mucosa. Moreover, in vitro or in vivo inhibition of serine proteases induced apoptotic death of olfactory neuronal cells. Interestingly, Spi2 over-expression is not occurring in olfactory neurons but in cells of the lamina propria, suggesting that Spi2 may act extracellularly as a cell death inducer. In that sense, we present evidence that in vitro Spi2 overexpression generates a secreted signal for olfactory neuron death. Hence, taken together these results document a possible novel mechanism for apoptosis induction that might occur in response to neurodegenerative insults.     

Morphological characteristics facilitating stimulus access and removal in the olfactory organ of the spiny lobster, Panulirus argus: insight from the design

The olfactory organ (antennule) of the spiny lobster, Panulirusargus, has from 1000–2000 olfactory sensilla (aesthetascs)which are grouped in a dense tuft along the distal portion ofthe lateral filament. This assemblage of aesthetascs, togetherwith other associated sensilla, forms a substantial boundarylayer through which odor stimuli must diffuse in moving to andfrom the aesthetascs. Periodic flicking of the antennule, abehavior analogous to sniffing in certain vertebrate species,is considered to be a means of reducing the thickness of thisboundary layer. In this report we describe the structure ofthe aesthetasc tuft and examine certain of its dynamic properties.We propose that the unique configuration of the aesthetasces,together with their orientation, serves to channel water flowbetween these sensilla during a flick, thereby reducing diffusiondistances and consequently facilitating the access and removalof odor stimuli in a rapid, synchronized manner. The functionalsignificance of this and other design features of the aesthetasctuft is considered in light of the current understanding offundamental olfactory process.     

Acetylcholinesterase activity in antennal receptor neurons of the sphinx moth Manduca sexta

Summary We have used a cytochemical technique to investigate the distribution of acetylcholinesterase (AChE) activity in the antenna of the sphinx moth Manduca sexta. High levels of echothiophate-insensitive (presumably intracellular) AChE activity were found in six different types of antennal receptors localized in specific regions of the three antennal segments of the adult moth. Mechanosensory organs in the scape and pedicel, the Böhm bristles and Johnston's organ, are innervated by AChE-positive neurons. In each annulus of the antennal flagellum, AChE-positive neurons are associated with six sensilla chaetica and a peg organ, probably a sensillum styloconicum. At least 112 receptor neurons (8–10 per annulus) innervating the intersegmental membranes between the 14 distalmost annuli also exhibit high levels of echothiophate-resistant AChE. In addition, each annulus has more than 30 AChE-positive somata in the epidermis of the scale-covered (back) side of the flagellum, and 4 AChE-positive somata reside within the first annulus of the flagellum. Since none of the olfactory receptor neurons show a high level of echothiophateresistant AChE activity, and all known mechanoreceptors are AChE-positive, apparently intracellular AChE activity in the antenna correlates well with mechanosensory functions and is consistent with the idea that these cells employ acetylcholine as a neurotransmitter.     

Characterization of the proteases in the midgut of the xylophagous larvae of Oemona hirta (Coleoptera: Cerambycidae)

Abstract  The protein digestive capability of the larvae of the longhorn beetle ( Oemona hirta , Coleoptera: Cerambycidae, Fabricius, 1775) was investigated. This species feeds only on wood where there is a high proportion of vascular tissue. The pH of the midgut, the major digestive organ, was alkaline and protein hydrolysis was maximal at alkaline pH. Use of specific synthetic peptide substrates showed that the major protease activities were the endopeptidases, trypsin and chymotrypsin-like activity, and the exopeptidase, leucine aminopeptidase and the pH curves corresponded to that with protein substrate. Studies using a range of serine protease inhibitors as well as specific inhibitors of metalloproteases, cysteine proteases and aspartate proteases confirmed a serine protease-based digestive system similar to earlier reports of sapwood-feeding Cerambycids. Control of these insect pests using protease inhibitors is discussed.     

Bacillus thuringiensis proteases: Production and role in growth,sporulation and synergism

Bacillus thuringiensis (Bt) subspecies produces metalloproteases and serine alkaline proteases (endogenous) which affect sporulation and entomotoxicity against different insect orders. The production of Bt proteases is investigated in conventional medium and alternative substrates with future repercussions on Bt formulations and larval mortality. Relationship between protease activity and total cell count during Bt fermentation has been discussed while protease activity as a potential indicator of entomotoxicity has also been explored. In general, the proteases influence entomotoxicity in two divergent ways—processing of inactive protoxins to active toxin fractions (by endogenous Bt as well as exogenous larval midgut proteases) and degradation of protoxins to fragments which sometimes lack insecticidal activity (usually by Bt proteases). In fact, the function of endogenous (intra and extracellular) proteases is ambiguous and has been raising serious questions on their role in larval mortality. The review explores various schools of thoughts (traditional as well as advanced) to solve the enigma of protease interactions with crystal toxins at different levels (sporulation and insecticidal action).     

Difference of acrosomal serine protease system between mouse and other rodent sperm

A fraction of acrosomal proteins dispersed during calcium ionophore A23187‐induced acrosome reaction was prepared from cauda epididymal sperm of wild‐type and acrosin‐deficient mice, rat, and hamster. The acrosome‐reacted sperm were further extracted by Nonidet P‐40 to obtain the detergent‐soluble protein fraction. Activities of serine proteases in the two protein fractions were examined by sodium dodecyl sulfate‐polyacrylamide gel electrophoresis in the presence of gelatin. A mixture of 42‐ and 41‐kDa gelatin‐hydrolyzing proteases was found in both fractions of the wild‐type mouse sperm, whereas the acrosin‐deficient mouse sperm contained the active 42‐kDa protease and apparently lacked the activity of the 41‐kDa protease. However, exogenous bovine pancreatic trypsin compensated for the absence of acrosin in the protein fractions of the mutant mouse sperm; the gelatin‐hydrolyzing activity of the 41‐kDa protease appeared when the sperm proteins of the mutant mice were treated with pancreatic trypsin. Two‐dimensional polyacrylamide gel electrophoresis revealed that the 42‐ and 41‐kDa proteases were distinguished from acrosin by the isoelectric point and immunoreactivity with affinity‐purified antibody against an oligopeptide corresponding to the N‐terminal amino acid sequence of mouse proacrosin. Moreover, the gelatin‐hydrolyzing proteins corresponding to these two proteases were not detected in rat and hamster sperm, in spite of the treatment of the sperm extracts with pancreatic trypsin, and the total amount of gelatin‐hydrolyzing activities in mouse was much smaller than those in rat and hamster. These results may reflect the difference of the serine protease system for the sperm penetration through the egg zona pellucida between mouse and other rodent animals, possibly explaining why the acrosin‐deficient mouse sperm are capable of penetrating the zona pellucida. Dev. Genet. 25:115–122, 1999. © 1999 Wiley‐Liss, Inc.     

The peripheral and central antennular pathway of the Caribbean stomatopod crustacean Neogonodactylus oerstedii

Although stomatopod crustaceans use their chemical senses in many facets of behavior, little is known about their chemosensory neural pathways, especially in comparison to the better-studied decapod crustaceans. We examined the stomatopod Neogonodactylus oerstedii to determine organizational aspects of peripheral and central neural pathway of antennules, which is a major chemosensory organ. We describe the three flagella of the triramous antennule as the medial, dorsolateral, and ventrolateral flagella. The primary branch point is between the medial flagellum and lateral flagella, and the secondary branch point is at the junction of the dorsolateral and ventrolateral flagella. The antennule bears at least three types of setae, based on their external morphology. Simple setae are present only on the medial flagellum and ventrolateral flagellum, organized as a tuft of 10-15 setae on each flagellar annulus. Aesthetasc setae and asymmetric setae occur only on the distal annuli of the dorsolateral flagellum, with each annulus bearing a row of three aesthetascs and one asymmetric seta. DiI fills of the antennular nerve near the junction of the flagella show that sensory neurons in the antennular flagella project to two neuropils in the ipsilateral midbrain-the olfactory lobe (OL) and lateral antennular neuropil (LAN). The OL is glomerular and has rich serotonergic innervation, a characteristic of the OL in decapods. The LAN is bi-lobed and stratified as it is in decapods. However, the LAN of stomatopods differs from that of decapods in being relatively large and containing extensive serotonergic innervation. The median antennular neuropil of stomatopods has sparse serotonergic innervation, and it is more diffusely organized compared to decapods. No accessory lobes were found in N. oerstedii. Thus, the stomatopod antennular flagella have the same two, highly organized parallel pathways common to decapods-the OL pathway and the LAN pathway.     

Isolation and characterization of Perkinsus marinus proteases using bacitracin–sepharose affinity chromatography

Extracellular proteases were isolated from the cell-free culture supernatant of the oyster-pathogenic protozoan, Perkinsus marinus, by bacitracin–sepharose affinity chromatography. The purified protease fractions contained >75% of the protease activity initially loaded onto the column with very high specific activity that corresponded to 8–11-fold level of protease enrichment. The isolated proteases hydrolysed a variety of protein substrates including oyster plasma. All of the isolated P. marinus proteases belonged to the serine class of proteases. Inhibitor studies involving spectrophotometric assay and gelatin gel electrophoresis showed high levels of inhibition in the presence of the serine protease inhibitors PMSF, benzamidine and chymostatin, whereas inhibitors of cysteine, aspartic, and metalloproteases showed little or no inhibition. Spectrophotometric assays involving serine-specific peptide substrates further revealed that the isolated proteases belong to the class of chymotrypsin-like serine proteases. A 41.7 kDa monomeric, N-glycosylated, serine protease (designated Perkinsin) has been identified as the major P. marinus extracellular protease.     

A lead discovery strategy driven by a comprehensive analysis of proteases in the peptide substrate space

We present here a comprehensive analysis of proteases in the peptide substrate space and demonstrate its applicability for lead discovery. Aligned octapeptide substrates of 498 proteases taken from the MEROPS peptidase database were used for the in silico analysis. A multiple‐category naïve Bayes model, trained on the two‐dimensional chemical features of the substrates, was able to classify the substrates of 365 (73%) proteases and elucidate statistically significant chemical features for each of their specific substrate positions. The positional awareness of the method allows us to identify the most similar substrate positions between proteases. Our analysis reveals that proteases from different families, based on the traditional classification (aspartic, cysteine, serine, and metallo), could have substrates that differ at the cleavage site (P1–P1′) but are similar away from it. Caspase‐3 (cysteine protease) and granzyme B (serine protease) are previously known examples of cross‐family neighbors identified by this method. To assess whether peptide substrate similarity between unrelated proteases could reliably translate into the discovery of low molecular weight synthetic inhibitors, a lead discovery strategy was tested on two other cross‐family neighbors—namely cathepsin L2 and matrix metallo proteinase 9, and calpain 1 and pepsin A. For both these pairs, a naïve Bayes classifier model trained on inhibitors of one protease could successfully enrich those of its neighbor from a different family and vice versa, indicating that this approach could be prospectively applied to lead discovery for a novel protease target with no known synthetic inhibitors.     

Recombinant Der p 1 and Der f 1 exhibit cysteine protease activity but no serine protease activity

Although mite major group 1 allergens, Der p 1 and Der f 1, were first isolated as cysteine proteases, some studies reported that natural Der p 1 exhibits mixed cysteine and serine protease activity. Clarifying whether the serine protease activity originates from Der p 1 or is due to contamination is important for distinguishing between the pathogenic proteolytic activities of group 1 allergens and mite-derived serine proteases. Recombinant mite group 1 allergens would be useful tool for addressing this issue, because they are completely free from contamination by mite serine proteases. Recombinant Der p 1 and Der f 1, and highly purified natural forms exhibited only cysteine protease activity. However, commercially available natural forms exhibited both activities, but the two activities were eluted into different fractions in size-exclusion column chromatography. The substrate specificity associated with the serine protease activity was similar to that of Der f 3. These results indicate that the serine protease activity does not originate from group 1 allergens.     

Characterization of serine proteases of Lumbriculus variegatus and their role in regeneration

Serine proteases, ubiquitous enzymes known to function in digestion and immune protection in both vertebrates and invertebrates and implicated in regeneration in some species, were investigated in the California blackworm, Lumbriculus variegatus. Several serine proteases, rather than a single enzyme with broad specificity, were present in tissue extracts from the worms. Extracts were treated with a fluorescein‐labeled peptide chloromethyl ketone that specifically binds to trypsin/thrombin‐like proteases. Denaturing gel electrophoresis of labeled extracts showed several serine proteases with their molecular weight ranging 28,000–38,000 daltons. The trypsin/thrombin‐like activity was localized, using the fluorescein‐conjugated reagent, to the pharynx and digestive tract of L. variegatus. Movement of cells labeled by the reagent into regenerating tissues suggests that some differentiated endodermal tissues were used for reformation of digestive structures during regeneration in L. variegatus. The types of serine proteases in the extracts were further characterized by inhibitor studies. Presence of plasmin‐like activity was indicated by degradation of fibrin by tissue homogenates from the worms and the inhibitory effect of aprotinin on enzymes in these extracts. The ability of L. variegatus extracts to generate clots when incubated with rabbit plasma and partial inhibition of extract activity by phenylmethylsulfonyl fluoride and hirudin indicated presence of thrombin‐like activity. Consistent with the detection of trypsin, chymotrypsin, and plasmin‐like enzymes in the extracts was partial inhibition of L. variegatus serine protease activity by aminoethyl benzenesulfonyl fluoride and soybean trypsin inhibitor. Selective inhibition of chymotrypsin‐like activity by N‐tosyl‐l ‐phenylalanine chloromethyl ketone and chymostatin as well as trypsin‐like activity by N‐tosyl‐l ‐lysine chloromethyl ketone was observed. A potential role during regeneration for serine proteases is suggested by blockage of formation of head and tail structures by aminoethyl benzenesulfonyl fluoride, an inhibitor of these proteases.     

The phosphatidylethanolamine-binding protein is the prototype of a novel family of serine protease inhibitors

Serine proteases are involved in many processes in the nervous system and specific inhibitors tightly control their proteolytic activity. Thrombin is thought to play a role in tissue development and homeostasis. To date, protease nexin-1 is the only known endogenous protease inhibitor that specifically interferes with thrombotic activity and is expressed in the brain. In this study, we report the detection of a novel thrombin inhibitory activity in the brain of protease nexin-1(-/-) mice. Purification and subsequent analysis by tandem mass spectrometry identified this protein as the phosphatidylethanolamine-binding protein (PEBP). We demonstrate that PEBP exerts inhibitory activity against several serine proteases including thrombin, neuropsin, and chymotrypsin, whereas trypsin, tissue type plasminogen activator, and elastase are not affected. Since PEBP does not share significant homology with other serine protease inhibitors, our results define it as the prototype of a novel class of serine protease inhibitors. PEBP immunoreactivity is found on the surface of Rat-1 fibroblast cells and although its sequence contains no secretion signal, PEBP-H(6) can be purified from the conditioned medium upon recombinant expression.