Bending of z-lines by mechanical stimuli: an input signal for integrin dependent modulation of ion channels?

We studied which components of mechanical cell deformation are involved in "stretch modulated ion currents" (SMIC). Murine ventricular myocytes were attached to glass coverslips and deformed in x, y and z with a 16 microm thin glass stylus (S) of calibrated stiffness. Three-dimensional confocal microscopy characterized cell deformation (T-tubular membranes, mitochondria) and bending of S (indicative of the applied force). Axial (x-) displacement of S sheared the upper cell part versus the attached bottom, close to S, it changed sarcomere length and bent z-lines ("z-line displacement"). Vertical (z-press) or transversal (y-shear) displacement of S bulged cytoplasm and mitochondria transversally without detectable z-line displacement. Axial stiffness increased with the extent of stress ("stress stiffening"). Depolymerization of F-actin or block of integrin receptors reduced stiffness. SMIC served as a proxy readout of deformation-induced signaling. Axial deformation activated a non-selective cation conductance (Gns) and deactivated an inwardly rectifying K+ conductance (GK1), z-press or y-shear did not induce SMIC. Depolymerization of F-actin or block of integrin receptors reduced SMIC. SMIC did not depend on changes in sarcomere length but correlated with the extent of z-line bending. We discuss that both shear stress at the attached cell bottom and z-line bending could activate mechanosensors. Since SMIC was absent during deformations without z-line bending we postulate that z-line bending is a necessary component for SMIC signaling.     

Growth modulation of fibroblasts by chitosan-polyvinyl pyrrolidone hydrogel: Implications for wound management?

Wounds in adults and fetuses differ in their healing ability with respect to scar formation. In adults, wounds lacking the epidermis exhibit excess collagen production and scar formation. Fibroblasts synthesize and deposit a collagen rich extracellular matrix. The early migration and proliferation of fibroblasts in the wound area is implicated in wound scarring. We have synthesized a hydrogel from chitosan-polyvinyl pyrrolidone (PVP) and examined its effect on fibroblast growth modulation in vitro. The hydrogel was found to be hydrophilic as seen from its octane contact angle (141.2+/-0.37 degrees). The hydrogel was non-toxic and biocompatible with fibroblasts and epithelial cells as confirmed by the 3(4,5-dimethylthiazolyl-2)-2, 5-diphenyl tetrazolium bromide (MTT) as-say. It showed dual properties by supporting growth of epithelial cells (SiHa) and selectively inhibiting fibro-blast (NIH3T3) growth. Growth inhibition of fibroblasts resulted from their inability to attach on to the hydrogel. These findings are supported by image analysis, which revealed a significant difference (P<0.05) between the number of fibroblasts attached to the hydrogel in tissue culture as compared to tissue culture treated polystyrene (TCPS) controls. However, no significant difference was observed (P>0.05) in the number of epithelial (SiHa) cells attached on to the hydrogel as compared to the TCPS control. Although in vivo experiments are awaited, these findings point to the possible use of chitosan-PVP hydrogels in wound-management.     

β1 integrin: An emerging player in the modulation of tumorigenesis and response to therapy

Historically, a hallmark of tumorigenesis was the ability to grow in an anchorage-independent manner. Hence, tumors were thought to proliferate and survive independently of integrin attachment to the substratum. However, recent data suggest that integrins regulate not only tumor cell proliferation, survival and migration, but may also influence their response to anti-cancer agents. Interestingly, these influences are largely masked by growth of tumor cells in the standard, yet artificial, environment of 2D cell culture, but are readily apparent under 3D in vitro culture conditions and in tumor growth in vivo. We, and others, have recently demonstrated that the β1 integrin subunit controls the growth and invasion of prostate tumor cells in 3D culture conditions. Recently, the importance of integrins has also been demonstrated using tissue specific conditional knockout strategies in transgenic mouse tumor models, where they control primary tumor growth and dictate the site of metastatic spread. Furthermore, integrin-extracellular matrix interactions may modulate the response of tumors to standard chemotherapy agents or radiation. Taken together, these results highlight the important role of integrins in regulating tumor growth and metastasis; however, point out that the evaluation of their contribution to these processes requires appropriate contextual modeling.     

Human spermatozoa contain multiple targets for protein S‐nitrosylation: An alternative mechanism of the modulation of sperm function by nitric oxide?

Nitric oxide (NO) enhances human sperm motility and capacitation associated with increased protein phosphorylation. NO activates soluble guanylyl cyclase, but can also modify protein function covalently via S-nitrosylation of cysteine. Remarkably, this mechanism remains unexplored in sperm although they depend on post-translational protein modification to achieve changes in function required for fertilisation. Our objective was to identify targets for S-nitrosylation in human sperm. Spermatozoa were incubated with NO donors and S-nitrosylated proteins were identified using the biotin switch assay and a proteomic approach using MS/MS. 240 S-nitrosylated proteins were detected in sperm incubated with S-nitroso-glutathione. Minimal levels were observed in glutathione or untreated samples. Proteins identified consistently based on multiple peptides included established targets for S-nitrosylation in other cells e.g. tubulin, GST and HSPs but also novel targets including A-kinase anchoring protein (AKAP) types 3 and 4, voltage-dependent anion-selective channel protein 3 and semenogelin 1 and 2. In situ localisation revealed S-nitrosylated targets on the postacrosomal region of the head and throughout the flagellum. Potential targets for S-nitrosylation in human sperm include physiologically significant proteins not previously reported in other cells. Their identification will provide novel insight into the mechanism of action of NO in spermatozoa.     

Triggering of Ca2+ signals by NAADP-gated two-pore channels: a role for membrane contact sites?

NAADP (nicotinic acid-adenine dinucleotide phosphate) is a potent Ca2+-mobilizing messenger implicated in many Ca2+-dependent cellular processes. It is highly unusual in that it appears to trigger Ca2+ release from acidic organelles such as lysosomes. These signals are often amplified by archetypal Ca2+ channels located in the endoplasmic reticulum. Recent studies have converged on the TPCs (two-pore channels) which localize to the endolysosomal system as the likely primary targets through which NAADP mediates its effects. 'Chatter' between TPCs and endoplasmic reticulum Ca2+ channels is disrupted when TPCs are directed away from the endolysosomal system. This suggests that intracellular Ca2+ release channels may be closely apposed, possibly at specific membrane contact sites between acidic organelles and the endoplasmic reticulum.     

Origin of dental occlusion in tetrapods: signal for terrestrial vertebrate evolution?

Evolutionary changes of the dentition in tetrapods can be associated with major events in the history of terrestrial vertebrates. Dental occlusion, the process by which teeth from the upper jaw come in contact with those in the lower jaw, appears first in the fossil record in amniotes and their close relatives near the Permo-Carboniferous boundary approximately 300 million years ago. This evolutionary innovation permitted a dramatic increase in the level of oral processing of food in these early tetrapods, and has been generally associated with herbivory. Whereas herbivory in extinct vertebrates is based on circumstantial evidence, dental occlusion provides direct evidence about feeding strategies because jaw movements can be reconstructed from the wear patterns of the teeth. Examination of the evolution of dental occlusion in Paleozoic tetrapods within a phylogenetic framework reveals that this innovation developed independently in several lineages of amniotes, and is represented by a wide range of dental and mandibular morphologies. Dental occlusion also developed within diadectomorphs, the sister taxon of amniotes. The independent, multiple acquisition of this feeding strategy represents an important signal in the evolution of complex terrestrial vertebrate communities, and the first steps in the profound changes in the pattern of trophic interactions in terrestrial ecosystems.     

O-GlcNAc glycosylation: a signal for the nuclear transport of cytosolic proteins?

Year 2004 marks the 20th anniversary of the discovery of O-linked N-acetylglucosamine (O-GlcNAc) by Gerald W. Hart. Despite interest for O-GlcNAc, the functions played by this single monosaccharide remain poorly understood, though numerous roles have been suggested, among which is the involvement of O-GlcNAc in the nuclear transport of cytosolic proteins. This idea was first sustained by studies on bovine serum albumin that showed that the protein could be actively carried to the nucleus when it was modified with sugars. In this paper, we will review data on this puzzling problem. We will first describe the well-established nuclear localisation signal (NLS)-dependent nuclear transport by presenting the different factors involved, and then, we will examine where and how O-GlcNAc could be involved in nuclear transport. Whereas it has been suggested that O-GlcNAc could interfere at two levels in the nuclear transport both by modifying proteins to be translocated to the nucleus and by modifying the nucleoporins of the nuclear pore complex, according to us, this second idea seems unlikely. Part of this study will also be dedicated to a relatively new concept in the nuclear transport: the role of the 70-kDa heat shock proteins (HSP70). The action of the chaperone in nuclear translocation was put forward 10 years ago, but new findings suggest that this mechanism could be linked to O-GlcNAc glycosylation.     

Can the topological distribution of membrane spanning amino acid residues be responsible for the recognition of signal peptides by signal peptide peptidases?

Signal peptides are selectively recognized and degraded by membrane associated proteases called as signal peptide peptidases. The hydrolysis of the signal peptide occurs only after its cleavage from the precursor. The possible reasons for this selectivity have been investigated. The results indicate that in signal peptides, leucine residues are clustered to a large extent on the same side of the membrane spanning alpha helix as the polar residues, but are distinctly separated along the length of the axis. Such topological differences in the distribution of amino acids on the surface of the membrane spanning alpha helix may play a crucial role in selective degradation of signal peptides.     

Calcium-induced modification of protein conformation demonstrated by immunohistochemistry: What is the signal?

A recent study by Morgan et al. on the mechanism of the heating antigen retrieval (AR) has raised an interesting issue concerning calcium-induced modification of protein conformation demonstrated by immunohistochemistry (IHC). The current study is based on calcium-induced modification of thrombospondin (TSP) and Ki-67, as demonstrated by IHC using seven monoclonal antibodies (MAbs) to TSP and an MAb MIB1. Experiments were carried out on frozen tissue sections of bladder carcinoma and lymph node. Frozen sections were incubated with solutions of 50 mM CaCl2 and/or 10 mM EDTA at 4C overnight before formalin or acetone fixation for TSP and Ki-67, respectively. Sections were then fixed in 10% neutral buffered formalin or acetone before immunostaining. Seven MAbs to TSP, named Ab1 to 7 representing clone numbers of A4.1, D4.6, C6.7, A6.1, B5.2, A2.5, and HB8432, respectively, and MIB1 were utilized as primary antibodies. ABC was used as the detection system and AEC as the chromogen for immunohistochemical staining. An extracellular immunostaining pattern represented a positive result for TSP, and nuclear staining for MIB1. Frozen sections preincubated in 50 mM CaCl2 overnight at 4C showed significant loss of staining and/or altered staining pattern for six of the seven antibodies to TSP and MIB1 compared to positive controls not exposed to CaCl2. Lack of immunostaining of TSP and MIB1 attributable to exposure to CaCl2 could be partially recovered by incubating the frozen sections in EDTA. Calcium-induced modification of protein structure was demonstrated more than 10 years ago on the basis of immunochemical techniques. In this study, similar calcium-induced modification of protein was detectable by IHC in frozen tissue sections, suggesting that calcium-induced modification of protein structure may occur independently of fixation-induced modification. The fact that calcium binding may affect IHC staining is not surprising in view of the fact that antibody/antigen interactions are protein structure-dependent. However, in this experiment the change occurred before and independent of formalin fixation and does not necessarily imply a role for calcium in AR. There may be a valuable role for the use of chemical modification in visualization of protein structure changes in tissue sections by IHC. (J Histochem Cytochem 47:463-469, 1999)     

Is DNA damage the signal for induction of thermal resistance? induction by radiation in yeast

Yeast, as well as higher eukaryotes, are induced to increase thermal resistance (thermotolerance) by prior exposure to a heat stress. Prior exposure to an acute dose of either 60Co gamma or 254-nm ultraviolet radiation, at sublethal or fractionally lethal doses, is shown to cause a marked increase in the resistance of Saccharomyces cerevisiae to killing by heat. Following a radiation exposure, thermal resistance increased with time during incubation in nutrient medium, and the degree of resistance reached was proportional to the dose received. Partial induction by radiation followed by maximum induction by heat did not produce an additive response when compared to a maximum induction by heat alone, suggesting that the same process was induced by both heat and radiation. Irradiation with 254-nm uv light followed by an immediate, partial photoreversal of the pyrimidine dimers with long-wavelength uv light resulted in a reduced level of resistance compared to cells not exposed to the photoreversal light, indicating that the cells specifically recognized pyrimidine dimers as a signal to increase their thermal resistance. Exposure to 254-nm uv or ionizing radiation induced thermal resistance in mutants defective in either excision repair (rad3, uv-sensitive) or recombinational repair (rad52, gamma-sensitive), suggesting that recognition and repair of DNA damage by these systems are not a part of the signal which initiates an increase in resistance to heat. The amount of induction, per unit dose, was greater in the DNA repair-deficient mutants than in the wild-type cells, suggesting that an increase in the length of time during which damage remains in the DNA results in an increase in the effectiveness of the induction. These data indicate that types of DNA damage as diverse as those produced by ionizing radiation and by ultraviolet light are recognized as a signal by the yeast cell to increase its thermal resistance. It is therefore suggested that heat-induced alterations in DNA or in DNA-dependent chromosomal organization may be the signal for heat induction of thermotolerance in this and other eukaryotes.     

Aerosols: An underestimated vehicle for transmission of prion diseases?

We and others have recently reported that prions can be transmitted to mice via aerosols. These reports spurred a lively public discussion on the possible public-health threats represented by prion-containing aerosols. Here we offer our view on the context in which these findings should be placed. On the one hand, the fact that nebulized prions can transmit disease cannot be taken to signify that prions are airborne under natural circumstances. On the other hand, it appears important to underscore the fact that aerosols can originate very easily in a broad variety of experimental and natural environmental conditions. Aerosols are a virtually unavoidable consequence of the handling of fluids; complete prevention of the generation of aerosols is very difficult. While prions have never been found to be transmissible via aerosols under natural conditions, it appears prudent to strive to minimize exposure to potentially prion-infected aerosols whenever the latter may arise—for example in scientific and diagnostic laboratories handling brain matter, cerebrospinal fluids, and other potentially contaminated materials, as well as abattoirs. Equally important is that prion biosafety training be focused on the control of, and protection from, prion-infected aerosols.Key words: prion, prion transmission, scrapie, chronic wasting diseases, CWD, Creutzfeldt-Jacob-disease, CJD, TSE, aerosol, pathogens, allergensPrions, the causative agents of transmissible spongiform encephalopathies, can be undoubtedly propagated from one individual organism to another. The specific routes of prion transmission have been subjected to intensive studies over the past two decades. Incidental and iatrogenic transmission has occurred through the intracerebral route in the case of Dura mater implants¹ and the parenteral route in the case of contaminated pituitary hormones.² In addition, the Bovine Spongiform Encephalopathy (BSE) disaster has provided grim evidence that prion can be transmitted enterally as well. Experimental transmission of prions has been routinely achieved via intraperitoneal and intravenous injection^3,4 but also through more exotic routes such as intralingual,⁵ intranerval⁶ and conjunctival inoculation⁷ and via the nasal cavity.⁸In all prion disease paradigms studied so far the propagation, accumulation and dissemination of the prion protein has been mostly shown to depend on a functional immune system.^9–12 This dependence of prion pathogenesis on the lymphoid compartment, however, is only true for peripheral routes of infection—whereas direct inoculation into the brain does not require any components of the adaptive or innate immune system.B cells in secondary lymphoid organs have been shown to be of importance for the neuroinvasion of the prion protein; in contrast, B lymphocytes in the blood do not appear to play a crucial role.^13–15A special role in prion pathogenesis can be assigned to follicular dendritic cells (FDC). The generation, maturation and function of FDC are dependent on cytokines and chemokines predominantly synthesized and secreted by B lymphocytes. Consistently with this role of B cells in prion pathogenesis, B cell deficient mice show a significantly impaired prion replication due to severely impaired maturation of FDCs.¹⁶ Other soluble and membrane-bound immune mediators such as lymphotoxin heterotrimers and TNFalpha^17,18 as well as components of the complement system^19,20 play an important role in prion pathogenesis.While prions mostly reside in tissues, prion infectivity has also been detected in a variety of body fluids including cerebrospinal fluid,²¹ blood,²² saliva,²³ milk²⁴ and urine.²⁵ Although shedding of prions may occur constitutively from these secretions and excretions, many of the latter phenomena are enhanced by chronic inflammatory processes such as granulomas²⁶ and follicular infiltrates,²⁷ which trigger the maturation of lymphotoxin-dependent, prion-replicating cells.²⁶ The presence of prions in fluids begs the question whether nebulization, and subsequent inhalation, of such fluids may trigger prion infections.Aerosols are finely dispersed particles originating from solid material or liquid using air or other gases as carriers. Natural examples of aerosols include dust (e.g., volcano ashes), smoke, haze and sprays (e.g., sneezing or sea water sprays from breaking waves). Aerosols might be formally categorized as primary or secondary, with primary aerosols being generated in mechanical or thermal processes e.g., by whirling up, impact on surfaces, or burning, whereas secondary aerosols are generated during chemical reactions or by using condensation nuclei.Primary aerosols play an important role in microbiology since they can act as efficacious vehicles for pollen, spores, algae, fungi, bacteria and viruses. Of medical importance are also dandruff, fragments of fur, hairs or skin and mites, which can all function as allergens and trigger e.g., allergic asthma.Moreover, aerosols are excellent vehicles for the transportation of drugs into the respiratory tract. The size of the individual droplets is crucial in specifying the target organs of aerosol. Particle sized 3–10 µm are generally deposited in the nasal cavity and in the throat, whereas smaller particles (e.g., 1 µm) tend to deposit within the lower airways. In rodents pulmonary deposition can reach 10%.^28,29 In humans, particles of 5 µm may reach the lung if inhaled orally, but deposition in the alveolar compartment after inhaling via the nose is highly unlikely.^28,29 For the reasons discussed above, we have become interested in exploring the transmission potential of aerosol-borne prions. Indeed, we found that mouse scrapie can be efficiently transmitted via aerosols.³⁰ In addition to results obtained by exposure to aerosols, we found that mice developed prion infections when inoculated intranasally.Interestingly, this route of transmission was entirely independent on immune cells as shown by challenging various transgenic mouse strains lacking defined functions of the immune system.Well-known examples of transmission of pathogens via aerosols are infections by respiratory viruses (e.g., influenza viruses, adenoviruses, rhinoviruses, coronaviruses) and bacterial diseases (e.g., legionellosis, pneumonic plague by Yersinia pestis, Q-fever by Coxiella burnettii, anthrax) and fungal diseases (particularly aspergillosis and candidosis). In stark contrast, aerosols have historically never been regarded as potential vectors for prion diseases—although very little data existed in favor or against this possibility. This attitude goes along with the implicit “conventional wisdom” that prions are not airborne diseases. However, the concept of “airborne disease” in all the bacterial, fungal and viral examples quoted above, encompasses three distinct phases: (1) release of the infectious agent into aerosols by an infected donor, (2) uptake by a healthy recipient and (3) establishment of disease. It is self-evident that little or no natural transmission between individuals will be observed if any one of these three steps is inefficient. The epidemiological evidence from human prion diseases seems to indicate, albeit indirectly, that step #1 does not occur in CJD patients—inter alia because there is a dearth of evidence of proximity clustering of sCJD.³¹ In the case of CWD the situation may be different since saliva and droppings, which might plausibly give rise to powerful aerosols under a variety of conditions, were found to harbor infectivity. Finally, milk from sheep affected by mastitis can carry scrapie infectivity and—again—could conceivably give rise to aerosols. Since both CWD and sheep scrapie can efficiently spread horizontally within animal collectives, it is extremely appealing to speculate whether aerosols may play a role in said transmission.In natural scrapie in sheep horizontal transmission of prion diseases has been long thought to arise from placental contamination. However, in mice suffering from nephritis prion infectivity is shed with the urine.²⁵ Furthermore, sheep having a mastitis can transmit infectious prions with milk.³²In Chronic Wasting disease (CWD) of deer several careful studies have been performed that, together with our present finding, depose in favor of airborne transmission in this naturally occurring disease. Indeed, CWD prions can be transmitted experimentally via aerosol and the nasal route to transgenic cervidized mice.³³ Although no anecdotal or epidemiological evidence has come forward that airborne transmission may be important for the spread of CWD, several lines of thought suggest that this possibility is not implausible. In deer, prions have been detected in urine, saliva, feces and blood of diseased animals. Moreover, it was claimed that pathological prion protein could be recovered from the environmental water in an endemic area.³⁴ Since all fluids can act as sources for the generation of aerosols, any of the body fluids mentioned above may represent the point of origin for airborne transmission of CWD prions.In this context, also the presence of infectious prions in blood of patients should be mentioned which was demonstrated by the transmission of vCJD by blood transfusions.^35,36 The growing body of evidence that prion transmission can be airborne—at least under certain conditions—dictates that the release of potentially contaminated aerosols should be avoided under all circumstances. In this context it is mandatory that reliable precautions be defined and followed in scientific and diagnostic laboratories. In particular, it is self-evident that safety cabinets should be used while processing brain and nerve tissue (or any other potentially contaminated tissue) of man and animals suspected with prion disease. Our experience shows that this necessity is generally very well-understood by prion scientists.A further stone of contention relates to the biosafety level of the laboratory environment. Because prions were hitherto considered not be airborne, so far no specific regulations have been implemented. As a consequence, prion laboratories have been mostly required to adhere to the category “BSL3**.” While it is understood that the airborne transmission of prions has thus far only been observed under extreme conditions, we feel that it is in order to critically reassess biosafety regulations in the light of the recent discoveries. In particular, one might consider implementing more stringent measures towards protecting workers within diagnostic and scientific laboratories from aerosols.The situation in slaughterhouses and plants handling potentially contaminated offal may be even more problematic. Although regulations in slaughterhouses dictate the use of protecting glasses and masks or, alternatively, visors the use of personal protecting equipment should be rigorously controlled. In addition, high-pressure cleaning devices produce massive aerosols and should be strictly avoided in areas of slaughterhouses where prion-containing material may be processed. Regulations concerning cleaning of heads from slaughtered animals do pay attention to aerosol avoidance, e.g., by allowing only water hoses without pressure.A case in point is the severe neurological syndrome arising in swine abattoir workers.³⁷ Here, an immune-mediated polyradiculoneuropathy was reported to be related to a process using high-pressure fluids to remove the brains of swine.³⁷ During this process, high amounts of swine brain tissue became aerosolized and were inhaled and/or gained access to the respiratory tract mucosa of abattoir workers, resulting in immunization with myelin constituents akin to experimental autoimmune encephalitis (EAE). Although significant physiological differences exist concerning breathing, where humans are regarded as mouth breathers and mice as nose breathers, many people indeed show nose breathing under no or only moderate body burden. Therefore, results obtained in mouse experiments might also be extrapolated to a considerable extent to the situation in man.In this context it is of importance to stress again that aerosols might be generated under various conditions and represent a normal entity of the environment in a variety of daily life situations.In our studies of airborne transmission of prion protein in mice³⁰ we took advantage of the fact that mice breathe exclusively through their nostrils^38,39 and therefore could be exposed in groups to aerosolized brain suspensions. Using this system, it was possible to vary both time of exposure as well as concentration of the prion load in the aerosol. We were surprised to discover that exposure times as short as 1 min were sufficient to achieve high attack rates. By extending the time of exposure it became obvious that incubation times were shortened. A possible alternative route of infection via the cornea or the conjunctiva was extremely unlikely, since newborn mice, whose eyelids were still closed, could also be infected. These findings show that the aerogenic transmission of prions is very efficient.But how do prions spread from the airways to the brain? Peripheral replication of prions in the lymphoid system—a characteristic of most other peripheral routes of transmission—appeared to be dispensable. Instead, the results argue for a direct pathway of brain invasion. One anatomical peculiarity of the nasal cavity is the “area cribriformis” of the olfactory epithelium. Here the olfactory bulb sprouts axons of olfactory receptor neurons passing through the cribriform plate of the ethmoidal bone to reach the olfactory mucosa where olfactory cilia extend representing non-myelinated nerve endings. Thus, open nerve endings are located in the nasal cavity through which aerosolized infectious prions might get access to the brain. In this context it is noteworthy that pathological prion protein was found in the olfactory cilia and basal cells of the olfactory mucosa of sCJD patients, as well as in the olfactory bulb and olfactory tract.^40,41 However, it was hitherto never clearly documented that olfactory receptor neurons represent an entry site for infectious prions; this might also be due to the sensitivity threshold of detection assays.In conclusion, aerosols can infect mice with a surprisingly high efficiency. Just how important a role is played by this newly recognized pathway of spread in natural transmission is, as of now, unclear and in need of further studies. Although it was not identified as a route of infection in epidemiological studies thus far, the worryingly high attack rate suggests that we would be well-advised to carefully avoid the inhalation of aerosols from prion-containing materials.     

Use of glacier river-fed estuary channels by juvenile Coho Salmon: transitional or rearing habitats?

Estuaries are among the most productive ecosystems in the world and provide important rearing environments for a variety of fish species. Though generally considered important transitional habitats for smolting salmon, little is known about the role that estuaries serve for rearing and the environmental conditions important for salmon. We illustrate how juvenile coho salmon Oncorhynchus kisutch use a glacial river-fed estuary based on examination of spatial and seasonal variability in patterns of abundance, fish size, age structure, condition, and local habitat use. Fish abundance was greater in deeper channels with cooler and less variable temperatures, and these habitats were consistently occupied throughout the season. Variability in channel depth and water temperature was negatively associated with fish abundance. Fish size was negatively related to site distance from the upper extent of the tidal influence, while fish condition did not relate to channel location within the estuary ecotone. Our work demonstrates the potential this glacially-fed estuary serves as both transitional and rearing habitat for juvenile coho salmon during smolt emigration to the ocean, and patterns of fish distribution within the estuary correspond to environmental conditions.     

Stimulation of interferons and endorphins/enkephalins by electro-aerosol inhalation? An experimental approach for testing an expanded hypothesis

The biological effects of endorphins/enkephalins and of interferons closely resemble those attributed to air ions and electro-aerosols. Air ions/electro-aerosols have been reported to affect brain functions and feelings of well-being; to have sedative and analgesic effects; to be therapeutically effective in certain viral (e.g., upper respiratory) infections; and to have tumor-attenuating effects. It is, therefore, conceivable that endorphins/enkephalins and interferons might be the mediators of these air ion/electro-aerosol effects.An experimental approach for testing this hypothesis is described. It calls for mice to be challenged with a suitable agent and to be exposed under appropriate conditions to a negatively charged aerosol of physiological saline 6 hours/day for up to 3 weeks; for the serial sacrifice of subgroups of these mice; for collecting blood and brains of the sacrificed animals; for the bioassay of the sera for interferon; and for radioimmunoassays of brains for endorphins/enkephalins. Special considerations, necessitated by the nature of the experiment, are discussed.     

Structural basis for modulation of gating property of G protein-gated inwardly rectifying potassium ion channel (GIRK) by i/o-family G protein α subunit (Gαi/o)

G protein-gated inwardly rectifying potassium channel (GIRK) plays a crucial role in regulating heart rate and neuronal excitability. The gating of GIRK is regulated by the association and dissociation of G protein βγ subunits (Gβγ), which are released from pertussis toxin-sensitive G protein α subunit (Gα(i/o)) upon GPCR activation in vivo. Several lines of evidence indicate that Gα(i/o) also interacts directly with GIRK, playing functional roles in the signaling efficiency and the modulation of the channel activity. However, the underlying mechanism for GIRK regulation by Gα(i/o) remains to be elucidated. Here, we performed NMR analyses of the interaction between the cytoplasmic region of GIRK1 and Gα(i3) in the GTP-bound state. The NMR spectral changes of Gα upon the addition of GIRK as well as the transferred cross-saturation (TCS) results indicated their direct binding mode, where the K(d) value was estimated as ～1 mm. The TCS experiments identified the direct binding sites on Gα and GIRK as the α2/α3 helices on the GTPase domain of Gα and the αA helix of GIRK. In addition, the TCS and paramagnetic relaxation enhancement results suggested that the helical domain of Gα transiently interacts with the αA helix of GIRK. Based on these results, we built a docking model of Gα and GIRK, suggesting the molecular basis for efficient GIRK deactivation by Gα(i/o).     

Pyrazine emission by a tropical firefly: An example of chemical aposematism?

Although famous for photic courtship displays, fireflies (Coleoptera: Lampyridae) are also notable for emitting strong odors when molested. The identity of volatile emissions and their possible role, along with photic signals, as aposematic warnings of unpalatability have been little explored, especially in tropical species. Pursuant to the observation that the widespread Neotropical fireflies, Photuris trivittata and Bicellonycha amoena, emit pungent odors, glows, and flashes when handled, we investigated their cuticular and headspace chemistry. Gas chromatography–mass spectrometry analyses revealed that both fireflies have species‐specific cuticular hydrocarbon profiles. Photuris trivittata headspace was dominated by 2‐methoxy‐3‐(1‐methylpropyl) pyrazine (hereafter, pyrazine), on the order of 1.59 ng/individual and a suite of sesquiterpenes, while B. amoena emitted 3‐methoxy‐2‐butenoic acid methyl ester and a few ketones. This is the first report of such compounds in fireflies. We investigated the role of pyrazine in P. trivittata's interactions with potential predators: sympatric ants, toads, and bats. Solvent‐washed P. trivittata painted with pyrazine incurred lower ant predation than did their solvent‐washed counterparts. Pyrazine significantly repelled ants at baits in concentrations as low as 9.8 × 10^?4 ng/μl. The toad, Rhinella marina, readily accepted intact fireflies, pyrazine‐coated and uncoated mealworms. Both Myotis nigricans and Molossus molossus bats rejected fireflies, but accepted both pyrazine‐coated and uncoated mealworms. While pyrazine repels ants, its role as an aposematic signal warning other potential predators of firefly distastefulness requires further investigation. Our results underscore the idea that multiple enemies exert conflicting selection on firefly defenses.