Your search keyword '"Major urinary proteins"' showing total 243 results

1. The pattern of major urinary proteins (MUPS) expression during postnatal ontogenesis of the laboratory mouse depends on genotype and sex.

Author

Novikov, S. N., Churakov, G. A., Philimonenko, A. A., Ermakova, I. I., Fedorova, E. M., and Burkot, I. A.

Subjects

*PROTEIN fractionation, *URINALYSIS, *POLYACRYLAMIDE gel electrophoresis, *NEUROENDOCRINE cells, *ONTOGENY, *PHEROMONES, *PHASE partition, *MICE

Abstract

We investigated the specific pattern of major urinary proteins (MUPs) expression in 3-, 4-, and 12-week old mice of CBA/LacY and C57BL/6JY inbred strains using polyacrylamide gel electrophoresis. Quantitative evaluation of 8 protein fractions A-H with regard to sex, age, and genotype of the animals is presented for the first time. Actual problems of genetic control and neuroendocrine regulation of MUPs expression during ontogenesis are discussed. In the light of current views on MUPs as a key component in intrapopulation information exchange via pheromones, we put forward the idea that the genetically determined structure of the olfactory code of the definitive type is formed at an early ontogenetic stage on the basis of the MUPs combinatorial pattern. [ABSTRACT FROM AUTHOR]

Published

2009

2. Searching for Major Urinary Proteins (MUPs) as Chemosignals in Urine of Subterranean Rodents.

Author

Hagemeyer, Petra, Begall, Sabine, Janotova, Katerina, Todrank, Josephine, Heth, Giora, Jedelsky, Petr, Burda, Hynek, and Stopka, Pavel

Subjects

*RODENT behavior, *SEMIOCHEMICALS, *HABITATS, *SOCIAL structure, *URINALYSIS

Abstract

Chemosensory information mediates behavior in many rodent genera. Major Urinary Proteins (MUPs) facilitate chemical communication in some species of mice. We sought to demonstrate the importance of MUPs in chemosignaling across a range of rodent genera that live in different habitats and social structures. We analyzed urine from three subterranean rodent genera from different continents, and with diverse social systems: eusocial Zambian mole-rats ( Fukomys), solitary Israeli blind mole rats ( Spalax), and social Chilean coruros ( Spalacopus). 2D gel electrophoresis revealed low levels of protein, with sequences similar to aphrodisin, in Fukomys mole-rat urine, but no MUPs in urine of any of the studied species. Previous research demonstrated that subjects from the tested genera responded differentially to odors indicating transmission of individuality, family/colony or population, species, and reproductive state in secretions and excretions of conspecifics. This extends, to subterranean rodents, the evidence that rodent species can successfully transmit and receive chemosignals without the necessity of MUPs. [ABSTRACT FROM AUTHOR]

Published

2011

3. The Level of Major Urinary Proteins is Socially Regulated in Wild Mus musculus musculus.

Author

Janotova, Katerina and Stopka, Pavel

Subjects

*PROTEINS, *LABORATORY mice, *ESTRUS, *CREATINE, *URINALYSIS

Abstract

Major urinary proteins (MUPs) are highly polymorphic proteins that have been shown to perform several important functions in the chemical communication of the house mouse, Mus musculus. Production of these proteins in C57Bl/6 females is cyclic, reaching the maximum just before the beginning of estrus. Social environment is an important factor that increases MUP production in both sexes. We examined responsiveness of MUP production to social stimuli in wild mice, Mus musculus musculus. The direction of change of MUP production in males depended on the sex of the stimulus animal. Males up-regulated MUP production when caged with a female, but down-regulated MUP production when caged with a male. Down-regulation was more pronounced in males that were defeated in a male-male encounter. Females responded to a male's presence with a decrease in MUP production. We conclude that social modulation of MUP production is specific and, in coordination with other mechanisms, facilitates adjustment of the animal's odor profile to different social contexts. Our results also suggest that in males, MUPs may play an important role in advertizing the male's quality to females. Furthermore, we highlight the importance of analyzing data corrected with creatinine, which show MUP production on the (post)translational level as well as raw data (non-corrected with creatinine), which represent actual concentrations of MUPs in the urine. [ABSTRACT FROM AUTHOR]

Published

2011

4. A qualitative investigation of major urinary proteins in relation to the onset of aggressive behavior and dispersive motivation in male wild house mice ( Mus musculus domesticus).

Author

Rusu, Alina S., Krackow, Sven, Jedelsky, Petr L., Stopka, Pavel, and König, Barbara

Subjects

*MICE, *RODENTS, *BIRCH mice, *PROTEINS, *POLYPEPTIDES

Abstract

The physiological basis for population differentiation of dispersal timing during individual development in male wild house mice is still unknown. As major urinary proteins (MUPs) are known to convey information about competitive ability in male mice, we examined individual MUP profiles defined by isoelectric-focusing (IEF) patterns in relation to developmental timing of dispersive motivation. As an experimental paradigm marking the development of the dispersal propensity, we used agonistic onset between litter mate brothers when kept in pairs under laboratory conditions. Agonistic onset is known to reflect the initiation of dispersive motivation. Hence, we compared individual MUP IEF patterns between fraternal pairs that did or did not develop agonistic relationships before the age of 2 months. Urine was collected on the day of weaning and at the beginning of adulthood. We investigated whether there was a significant co-occurrence of particular MUP IEF patterns with the agonistic onset in male mice. We assumed that, based on this co-occurrence, particular MUP IEF patterns and/or a particular dynamic of MUP IEF expression from weaning to adulthood may be considered a physiological predictor of a specific behavioral strategy in male mice (i.e. submissive-philopatric or agonistic-dispersive strategy). We found that agonistic males expressed more MUP IEF bands than amicable ones at weaning, but these differences disappeared later on. The presence of two particular IEF bands at weaning was significantly associated with early agonistic onset. Our study suggests that MUPs could have a predictive value for the onset of aggressive behavior and dispersal tendency in male wild house mice. [ABSTRACT FROM AUTHOR]

Published

2008

5. Species-specific Expression of Major Urinary Proteins in the House Mice (Mus musculus musculus and Mus musculus domesticus).

Author

R. Stopková, P. Stopka, K. Janotová, and P. Jedelský

Subjects

*MICE, *PROTEINS, *MURIDAE, *BIOMOLECULES

Abstract

Abstract??The analysis of expression of pheromone-carrying major urinary proteins (MUPs) from two subspecies of house mice (Mus m. musculus,Mus m. domesticus) was studied. It has been previously shown that commensal populations of the two subspecies can discriminate on the basis of urinary signals. MUPs are predominant urinary proteins that protect pheromones from rapid degradation in a hydrophilic environment, and individuals ofM. m. musculustend to rely on these urinary cues in the process of subspecies discrimination more thanM. m. domesticusindividuals. Although it is not precisely known what triggers phenotypic and epigenetic changes of MUP expression, our results show that in the subspeciesM. m. musculus, sex is a significant factor influencing variations in the regulation of selected MUPs in the liver. Furthermore, maleM. m. musculusindividuals expressed all the studied MUPs? mRNA significantly more than females or individuals of either sex inM. m. domesticus. Correspondingly, the pattern of mRNA abundance was corroborated with the level of total MUP concentration in the urine, such that the level of sexual dimorphism was also significant and species-specific. Our finding introduces a hypothesis that quantitative variation of these proteins may be an essential part of a subspecies recognition system that maintains homospecific mixing. [ABSTRACT FROM AUTHOR]

Published

2007

6. Characterization and Comparison of Major Urinary Proteins from the House Mouse, Mus musculus domesticus, and the Aboriginal Mouse, Mus macedonicus.

Author

Duncan Robertson, Jane Hurst, Jeremy Searle, and Robert Beynon

Subjects

*PROTEINS, *URINE, *MICE, *ELECTROSPRAY ionization mass spectrometry

Abstract

Abstract??Urine from the house mouse,Mus musculus domesticus, contains a high concentration of major urinary proteins (MUPs), which convey olfactory information between conspecifics. In wild populations, each individual expresses a different pattern of around 8 to 14 electrophoretically separable MUP isoforms. To examine whether otherMusspecies express MUPs and exhibit a similar level of individual heterogeneity, we characterized urinary proteins in urine samples from an aboriginal species,Mus macedonicus, captured from different sites in Turkey. Anion exchange chromatography and electrospray ionization mass spectrometry demonstrated thatM. macedonicusurine contained a single major peak of mass 18,742?Da, and in contrast toM. m. domesticus, all individuals were the same. TheM. macedonicusmasses were not predicted from any known MUP gene sequence. Endoproteinase Lys-C (Lys-C) digestion of the purifiedM. macedonicusurinary protein followed by matrix assisted laser desorption time of flight (MALDI-TOF) mass spectrometry demonstrated that it shared considerable, but not complete, sequence homogeneity withM. m. domesticusMUPs. ThreeM. macedonicusLys-C peptides differed in mass from theirM. m. domesticuscounterparts. These three peptides were further characterized by tandem mass spectrometry. The complete sequences of two were determined, and in conjunction with methyl esterification, the amino acid composition of the third was inferred, and the sequence narrowed down to three permutations. The completeM. macedonicussequence contained a maximum of seven amino acid substitutions, discernible by tandem mass spectrometry, relative to a referenceM. m. domesticussequence. Six of these were on the surface of the molecule. Molecular modeling of theM. macedonicussequence demonstrated that the amino acid substitutions had little effect on the tertiary structure. The differences in the level of heterogeneity between the two species are discussed in relation to their environment and behavior. In addition, the differences in protein structure allow speculation into molecular mechanisms of MUP function. [ABSTRACT FROM AUTHOR]

Published

2007

7. Individual recognition in mice mediated by major urinary proteins.

Author

Hurst, Jane L., Payne, Caroline E., Nevison, Charlotte M., Marie, Amr D., Humphries, Richard E., Robertson, Duncan H.L., Cavaggioni, Andrea, and Beynon, Robert J.

Subjects

*MICE behavior, *URINE, *KIN recognition in animals

Abstract

Examines the function of major urinary proteins in the individual recognition mechanism in house mice Mus domesticus. Recognition of scent marks; Individuality signals in urine deposits; Countermarking of urine marks.

Published

2001

8. Analysis for Pheromone-Induced Cytogenetic Disturbances Depending on Major Urinary Proteins of Laboratory Mouse Males.

Author

Daev, E. and Sverdlova, O.

Abstract

Young male CBA/LacStoRap mice for 2 h were exposed to pheromones that are transferred by major urinary proteins of sexually mature males of the same strain. The treatment was conducted using either a complete set of the major urinary proteins typical of the CBA mice or incomplete set of protein fractions detected in some animals. The effect of pheromones was estimated 24 h after treatment by cytogenetic analysis for disturbances in dividing bone marrow cells at anaphase–telophase and in germ cells at metaphase I. The frequency of both mitotic and meiotic disturbances was significantly increased after exposure to pheromones associated with the complete spectrum of the major urinary proteins. Conversely, no cytogenetic effect was observed in the absence of particular protein fractions. Possible consequences of the pheromonal effect on the genomes of somatic and germ cells are discussed as well as the relationships between pheromones and the major urinary proteins. [ABSTRACT FROM AUTHOR]

Published

2002

9. Molecular heterogeneity in major urinary proteins of Mus musculus subspecies: potential candidates involved in speciation.

Author

Hurst, Jane L., Beynon, Robert J., Armstrong, Stuart D., Davidson, Amanda J., Roberts, Sarah A., Gómez-Baena, Guadalupe, Smadja, Carole M., and Ganem, Guila

Abstract

When hybridisation carries a cost, natural selection is predicted to favour evolution of traits that allow assortative mating (reinforcement). Incipient speciation between the two European house mouse subspecies, Mus musculus domesticus and M.m.musculus, sharing a hybrid zone, provides an opportunity to understand evolution of assortative mating at a molecular level. Mouse urine odours allow subspecific mate discrimination, with assortative preferences evident in the hybrid zone but not in allopatry. Here we assess the potential of MUPs (major urinary proteins) as candidates for signal divergence by comparing MUP expression in urine samples from the Danish hybrid zone border (contact) and from allopatric populations. Mass spectrometric characterisation identified novel MUPs in both subspecies involving mostly new combinations of amino acid changes previously observed in M.m.domesticus. The subspecies expressed distinct MUP signatures, with most MUPs expressed by only one subspecies. Expression of at least eight MUPs showed significant subspecies divergence both in allopatry and contact zone. Another seven MUPs showed divergence in expression between the subspecies only in the contact zone, consistent with divergence by reinforcement. These proteins are candidates for the semiochemical barrier to hybridisation, providing an opportunity to characterise the nature and evolution of a putative species recognition signal. [ABSTRACT FROM AUTHOR]

Published

2017

10. POLYMORPHISM IN MAJOR URINARY PROTEINS: MOLECULAR HETEROGENEITY IN A WILD MOUSE POPULATION.

Author

Beynon, Robert J., Veggerby, Christina, Payne, Caroline E., Robertson, Duncan H.L., Gaskell, Simon J., Humphries, Rick E., and Hurst, Jane L.

Subjects

PROTEINS, MICE

Abstract

Major urinary proteins (MUPs) are present in high levels in the urine of mice, and the specific profile of MUPs varies considerably among wildcaught individuals. We have conducted a detailed study of the polymorphic variation within a geographically constrained island population, analyzing the MUP heterogeneity by isoelectric focusing and analytical ion exchange chromatography. Several MUPs were purified in sufficient quantities for analysis by electrospray ionization mass spectrometry and MALDI-TOF mass spectrometry of endopeptidase Lys-C peptide maps. The results of such analyses permitted the identification of three new MUP allelic variants. In each of these proteins, the sites of variation were located to a restricted segment of the polypeptide chain, projecting to a patch on the surface of the protein, and connected to the central lipocalin calyx through the polypeptide backbone. The restriction of the polymorphic variation to one segment of the polypeptide may be of functional significance, either in the modulation of ligand release or in communication of individuality signals within urinary scent marks. [ABSTRACT FROM AUTHOR]

Published

2002

11. Diversity of major urinary proteins (MUPs) in wild house mice.

Author

Thoß, Michaela, Enk, Viktoria, Yu, Hans, Miller, Ingrid, Luzynski, Kenneth C., Balint, Boglarka, Smith, Steve, Razzazi-Fazeli, Ebrahim, and Penn, Dustin J.

Abstract

Major urinary proteins (MUPs) are often suggested to be highly polymorphic, and thereby provide unique chemical signatures used for individual and genetic kin recognition; however, studies on MUP variability have been lacking. We surveyed populations of wild house mice (Mus musculus musculus), and examined variation of MUP genes and proteins. We sequenced several Mup genes (9 to 11 loci) and unexpectedly found no inter-individual variation. We also found that microsatellite markers inside the MUP cluster show remarkably low levels of allelic diversity, and significantly lower than the diversity of markers flanking the cluster or other markers in the genome. We found low individual variation in the number and types of MUP proteins using a shotgun proteomic approach, even among mice with variable MUP electrophoretic profiles. We identified gel bands and spots using high-resolution mass spectrometry and discovered that gel-based methods do not separate MUP proteins, and therefore do not provide measures of MUP diversity, as generally assumed. The low diversity and high homology of Mup genes are likely maintained by purifying selection and gene conversion, and our results indicate that the type of selection on MUPs and their adaptive functions need to be re-evaluated. [ABSTRACT FROM AUTHOR]

Published

2016

12. The major urinary protein gene cluster knockout mouse as a novel model for translational metabolism research.

Author

Greve, Sarah, Kuhn, Gisela A., Saenz-de-Juano, Mara D., Ghosh, Adhideb, von Meyenn, Ferdinand, and Giller, Katrin

Subjects

GENE knockout, KNOCKOUT mice, TRANSLATIONAL research, GENE clusters, LABORATORY mice, TERRITORIAL marking (Animals), ADIPOSE tissue physiology

Abstract

Scientific evidence suggests that not only murine scent communication is regulated by major urinary proteins, but that their expression may also vary in response to metabolism via a yet unknown mechanism. Major urinary proteins are expressed mainly in the liver, showing a sexually dimorphic pattern with substantially higher expression in males. Here, we investigate the metabolic implications of a major urinary protein knockout in twelve-week-old male and female C57BL/6N mice during ad libitum feeding. Despite both sexes of major urinary protein knockout mice displayed numerically increased body weight and visceral adipose tissue proportions compared to sex-matched wildtype mice, the main genotype-specific metabolic differences were observed exclusively in males. Male major urinary protein knockout mice exhibited plasma and hepatic lipid accumulation accompanied by a hepatic transcriptome indicating an activation of lipogenesis. These findings match the higher major urinary protein expression in male compared to female wildtype mice, suggesting a more distinct reduction in energy requirements in male compared to female major urinary protein knockout mice. The observed sex-specific anabolic phenotype confirms a role of major urinary protein in metabolism and, since major urinary proteins are not expressed in humans, suggests the major urinary protein knockout mouse as a potential alternative model for translational metabolism research which needs to be further elucidated. [ABSTRACT FROM AUTHOR]

Published

2022

13. Pheromones that correlate with reproductive success in competitive conditions.

Author

Luzynski, Kenneth C., Nicolakis, Doris, Marconi, Maria Adelaide, Zala, Sarah M., Kwak, Jae, and Penn, Dustin J.

Subjects

BIOLOGICAL fitness, SPERM competition, HUMAN sexuality, MICE, SOCIAL status, PHEROMONES

Abstract

The major urinary proteins (MUPs) of house mice (Mus musculus) bind and stabilize the release of pheromones and other volatile organic compounds (VOCs) from urinary scent marks, which mediate chemical communication. Social status influences MUP and VOC excretion, and the urinary scent of dominant males is attractive to females. Urinary pheromones influence the sexual behavior and physiology of conspecifics, and yet it is not known whether they also affect reproductive success. We monitored the excretion of urinary protein and VOCs of wild-derived house mice living in large seminatural enclosures to compare the sexes and to test how these compounds correlate with reproductive success. Among males, urinary protein concentration and VOC expression correlated with reproductive success and social status. Territorial dominance also correlated with reproductive success in both sexes; but among females, no urinary compounds were found to correlate with social status or reproductive success. We found several differences in the urinary protein and volatile pheromones of mice in standard cages versus seminatural enclosures, which raises caveats for conventional laboratory studies. These findings provide novel evidence for chemical signals that correlate with male reproductive success of house mice living in competitive conditions. [ABSTRACT FROM AUTHOR]

Published

2021

14. Liver size and lipid content differences between BALB/c and BALB/cJ mice on a high-fat diet are due, in part, to Zhx2.

Author

Clinkenbeard, Erica L., Turpin, Courtney, Jiang, Jieyun, Peterson, Martha L., and Spear, Brett T.

Subjects

HIGH-fat diet, ZINC-finger proteins, LIPOPROTEIN lipase, BLOOD lipids, LIVER, MICE

Abstract

BALB/cJ mice exhibit considerable phenotypic differences with other BALB/c substrains. Some of these traits involve the liver, including persistent postnatal expression of genes that are normally expressed only in the fetal liver and reduced expression of major urinary proteins. These traits are due to a mutation that dramatically reduces expression of the gene encoding the transcription factor Zinc fingers and homeoboxes 2 (Zhx2). BALB/cJ mice also exhibit reduced serum lipid levels and resistance to atherosclerosis compared to other mouse strains when placed on a high-fat diet. This trait is also due, at least in part, to the Zhx2 mutation. Microarray analysis identified many genes affecting lipid homeostasis, including Lipoprotein lipase, that are dysregulated in BALB/cJ liver. This led us to investigate whether hepatic lipid levels would be different between BALB/cJ and BALB/c mice when placed on a normal chow or a high-fat chow diet. On the high-fat chow, BALB/cJ mice had increased weight gain, increased liver:body weight ratio, elevated hepatic lipid accumulation and markers of liver damage when compared to BALB/c mice. These traits in BALB/cJ mice were only partially reversed by a hepatocyte-specific Zhx2 transgene. These data indicate that Zhx2 reduces liver lipid levels and is hepatoprotective in mice on a high-fat diet, but the partial rescue by the Zhx2 transgene suggests a contribution by both parenchymal and non-parenchymal cells. A model to account for the cardiovascular and liver phenotype in mice with reduced Zhx2 levels is provided. [ABSTRACT FROM AUTHOR]

Published

2019

15. Egalitarian cooperation linked to central oxytocin levels in communal breeding house mice.

Author

Fischer, Stefan, Duffield, Callum, Swaney, William T., Bolton, Rhiannon L., Davidson, Amanda J., Hurst, Jane L., and Stockley, Paula

Subjects

SOCIAL cues, ANIMAL diversity, MICE, PARAVENTRICULAR nucleus, OXYTOCIN

Abstract

Relationships between adult females are fundamental to understanding diversity in animal social systems. While cooperative relationships between kin are known to promote fitness benefits, the proximate mechanisms underlying this are not well understood. Here we show that when related female house mice (Mus musculus domesticus) cooperate to rear young communally, those with higher endogenous oxytocin levels have more egalitarian and successful cooperative relationships. Sisters with higher oxytocin concentrations in the paraventricular nucleus (PVN) of the hypothalamus weaned significantly more offspring, had lower reproductive skew and spent more equal proportions of time in the nest. By contrast, PVN oxytocin was unrelated to the number of weaned offspring produced in the absence of cooperation, and did not vary in response to manipulation of nest site availability or social cues of outgroup competition. By linking fitness consequences of cooperation with oxytocin, our findings have broad implications for understanding the evolution of egalitarian social relationships. Fitness consequences of communal breeding suggest a role for oxytocin in the evolution of egalitarian social relationships - cooperating sisters with higher hypothalamic oxytocin levels have more equal and greater combined reproductive success. [ABSTRACT FROM AUTHOR]

Published

2024

16. The Influence of the FFAR4 Agonist TUG-891 on Liver Steatosis in ApoE-Knockout Mice.

Author

Kiepura, Anna, Suski, Maciej, Stachyra, Kamila, Kuś, Katarzyna, Czepiel, Klaudia, Wiśniewska, Anna, Ulatowska-Białas, Magdalena, and Olszanecki, Rafał

Abstract

Background: Nonalcoholic fatty liver disease (NAFLD) constitutes an independent risk factor for the development of coronary heart disease. Low-grade inflammation has been shown to play an important role in the development of atherosclerosis and NAFLD. Free fatty acid receptor 4 (FFAR4/GPR120), which is involved in damping inflammatory reactions, may represent a promising target for the treatment of inflammatory diseases. Our objective was to evaluate the effect of TUG-891, the synthetic agonist of FFAR4/GPR120, on fatty liver in vivo. Methods: The effect of TUG-891 on fatty liver was investigated in apoE−/− mice fed a high-fat diet (HFD), using microscopic, biochemical, molecular, and proteomic methods. Results: Treatment with TUG-891 inhibited the progression of liver steatosis in apoE−/− mice, as evidenced by histological analysis, and reduced the accumulation of TG in the liver. This action was associated with a decrease in plasma AST levels. TUG-891 decreased the expression of liver genes and proteins involved in de novo lipogenesis (Srebp-1c, Fasn and Scd1) and decreased the expression of genes related to oxidation and uptake (Acox1, Ehhadh, Cd36, Fabp1). Furthermore, TUG-891 modified the levels of selected factors related to glucose metabolism (decreased Glut2, Pdk4 and Pklr, and increased G6pdx). Conclusion: Pharmacological stimulation of FFAR4 may represent a promising lead in the search for drugs that inhibit NAFLD. [ABSTRACT FROM AUTHOR]

Published

2024

17. Multi-layered metabolic effects of trehalose on the liver proteome in apoE-knockout mice model of liver steatosis.

Author

Pogoda, Weronika, Koczur, Jakub, Stachowicz, Aneta, Madej, Józef, Olszanecki, Rafał, and Suski, Maciej

Published

2024

18. Stimulation of Estrus in Female Mice by Male Urinary Proteins.

Author

Marchlewska-Koj, Anna, Cavaggioni, Andrea, Mucignat-Caretta, Carla, and Olejniczak, Paweł

Abstract

Stimulation of estrus in adult female mice was obtained with major urinary proteins (MUPs) with the natural volatile ligands bound. The MUP threshold concentration for this effect was about 1.8 mg/ml. MUPs without the ligands bound, as purified by organic extraction of hydrophobic compounds, stimulated estrus in mice only when dissolved in carrier urine of juvenile or castrated adult male mouse or ovariectomized female mouse. They did not stimulate estrus when dissolved in water. Mice that had the vomeronasal organ removed were insensitive to MUPs. It is concluded that MUPs are an integral part of the mouse male pheromones that stimulate hormonal activity in females and that the vomeronasal system is involved in the estrus-stimulating effect of the major urinary proteins. [ABSTRACT FROM AUTHOR]

Published

2000

19. Ligands of Urinary Lipocalins from the Mouse: Uptake of Environmentally Derived Chemicals.

Author

Robertson, Duncan, Hurst, Jane, Hubbard, Simon, Gaskell, Simon, and Beynon, Robert

Abstract

Mouse urine contains large quantities of proteins (major urinary proteins, MUPs) that are thought to function by binding lipophilic and volatile semiochemicals in a central calyx of the MUP. Two notable semiochemicals are 2- sec-butyl-4,5-dihydrothiazole and a brevicomin (3,4-dehydro- exo-brevicomin). MUPs derived from deposits of urine from wild caught mice contain neither of these ligands, but are replete with menadione. The menadione is probably incorporated in vitro from the environment, although some incorporation in vivo can also be demonstrated. These data show that the calyx of MUPs can bind other hydrophobic molecules derived from the environment, which may influence longevity of signal and deposition patterns of urinary scent marks. The ability to displace, rapidly and completely, the natural ligands by menadione also provides a new tool in the analysis of MUP function. [ABSTRACT FROM AUTHOR]

Published

1998

20. Phylogenetic Analysis of Three Lipocalin-Like Proteins Present in the Milk of Trichosurus vulpecula (Phalangeridae, Marsupialia).

Author

Piotte, Christine P., Hunter, Airlie K., Marshall, Craig J., and Grigor, Murray R.

Abstract

Three proteins have been identified in the milk of the common brush tail possum, Trichosurus vulpecula that from sequence analysis are members of the lipocalin family. They include β-lactoglobulin, which appears to have two forms; a homologue to the late-lactation protein found in tammar, Macropus eugenii; milk; and a novel protein termed trichosurin. Whereas β-lactoglobulin and trichosurin are both expressed throughout lactation, the late-lactation protein is not detected in samples taken before days 100–110 of lactation. The cDNAs encoding each of these proteins have been isolated from cDNA libraries prepared using possum mammary mRNA and sequenced. Phylogenetic analysis showed that the T. vulpeculaβ-lactoglobulin, along with two other macropod β-lactoglobulins, forms a subclass of β-lactoglobulins distinct from those for eutherian mammals; both marsupial late-lactation proteins appear to have similarities to a family of odorant-binding proteins, whereas trichosurin has similarities to the major urinary proteins of rodents. [ABSTRACT FROM AUTHOR]

Published

1998

21. Odour preferred males led to a higher offspring number in the common vole.

Author

Bílková, Pavlína, Vlček, Jakub, Cvetković, Tijana, Štefka, Jan, and Sedláček, František

Published

2024

22. Metabolomic profiling of urinary changes in mice with monosodium glutamate-induced obesity.

Author

Pelantová, Helena, Bártová, Simona, Anýž, Jiří, Holubová, Martina, Železná, Blanka, Maletínská, Lenka, Novák, Daniel, Lacinová, Zdena, Šulc, Miroslav, Haluzík, Martin, and Kuzma, Marek

Subjects

METABOLOMICS, OBESITY, MONOSODIUM glutamate, LABORATORY mice, URINALYSIS

Abstract

Obesity with related complications represents a widespread health problem. The etiopathogenesis of obesity is often studied using numerous rodent models. The mouse model of monosodium glutamate (MSG)-induced obesity was exploited as a model of obesity combined with insulin resistance. The aim of this work was to characterize the metabolic status of MSG mice by NMR-based metabolomics in combination with relevant biochemical and hormonal parameters. NMR analysis of urine at 2, 6, and 9 months revealed altered metabolism of nicotinamide and polyamines, attenuated excretion of major urinary proteins, increased levels of phenylacetylglycine and allantoin, and decreased concentrations of methylamine in urine of MSG-treated mice. Altered levels of creatine, citrate, succinate, and acetate were observed at 2 months of age and approached the values of control mice with aging. The development of obesity and insulin resistance in 6-month-old MSG mice was also accompanied by decreased mRNA expressions of adiponectin, lipogenetic and lipolytic enzymes and peroxisome proliferator-activated receptor-gamma in fat while mRNA expressions of lipogenetic enzymes in the liver were enhanced. At the age of 9 months, biochemical parameters of MSG mice were normalized to the values of the controls. This fact pointed to a limited predictive value of biochemical data up to age of 6 months as NMR metabolomics confirmed altered urine metabolic composition even at 9 months. [ABSTRACT FROM AUTHOR]

Published

2016

23. The role of male scent in female attraction in the bank vole, Myodes glareolus.

Author

Coombes, Holly A., Prescott, Mark C., Stockley, Paula, Beynon, Robert J., and Hurst, Jane L.

Subjects

VOLES, MICE, FEMALES, MALES, ODORS, NUMBERS of species

Abstract

Chemical signals are frequently utilised by male mammals for intersexual communication and females are often attracted to male scent. However, the mechanism underlying female attraction has only been identified in a small number of mammalian species. Mammalian scents contain airborne volatiles, that are detected by receivers at a distance from the scent source, as well as non-volatile molecules, such as proteins, that require physical contact for detection. Lipocalin proteins, produced within the scent secretions of many terrestrial mammals, are thought to be particularly important in chemical signalling. Here, we explore if the male-specific protein, glareosin, expressed by adult male bank voles, Myodes glareolus, stimulates female attraction to male scent. We show that female bank voles are more attracted to male compared to female scent, supporting the results of previous studies. Increased investigation and attraction to male scent occurred to both airborne volatiles and non-volatile proteins when they were presented separately. However, we found no evidence that attraction to male scent was driven by glareosin. Our results differ from those previously described in house mice, where a single protein induces female attraction to male scent, suggesting the mechanism underlying female attraction to male scent differs between species. [ABSTRACT FROM AUTHOR]

Published

2024

24. Trojan Genes or Transparent Genomes? Sexual Selection and Potential Impacts of Genetically Modified Animals in Natural Ecosystems.

Author

Rollo, C., Kumar, Aarti, Smith, Richard, Wang, Jiaxi, Aksenov, Vadim, Han, Jiawei, and Khanna, Parul

Abstract

Introgression of genetically engineered modifications (GMs) into natural populations represents a new realm for mutation theory. GMs, like mutations, have direct and pleiotropic impacts that can disrupt evolved adaptive suites. If GM males are more competitive or attractive mates, the 'Trojan Gene Hypothesis' predicts potentially drastic impacts. We examined sexual selection in transgenic growth hormone (Tg) mice that are strong Trojan candidates given their exceptional size and extensive pleiotropic deficits. We hypothesized that the sophisticated olfactory abilities of females would recognize dysregulation of Tg males (the Transparent Genome Hypothesis). Females expressed interest in Tg males and their volatile scent, but when allowed nasal contact with urine (critical to mate choice) they preferred normal males. Tg male urine had reduced major urinary proteins (important in social signaling) and contained albumin and transferrin indicative of pathology. Novel Tg males failed to elicit pregnancy block in recently inseminated females (the 'Bruce Effect') whereas normal males were highly effective. Normal males expressed high aggression but Tg males were placid, non-aggressive and were largely ignored by normal males. Female mice also strongly preferred normal males over p53 knockout males in response to volatiles, contact with urine and male presence. This study suggests that conspecific discrimination of fitness may be more powerful than generally appreciated. This has great implications for introductions of GM animals and sexual selection generally. [ABSTRACT FROM AUTHOR]

Published

2014

25. Allergen Ligands in the Initiation of Allergic Sensitization.

Author

Thomas, Wayne

Abstract

As investigations into the innate immune responses that lead to allergic sensitization become better defined, there is a need to determine how allergens could interact with pattern recognition receptors that bind non-proteinaceous moieties. Many important allergens are not covalently bound to lipid or carbohydrate, but have structures belonging to lipid, glycan and glycolipid-binding families. These include ML-domain proteins, lipopolysaccharide-binding/cell permeability-increasing proteins, von Ebner gland lipocalins, salivary lipocalins/major urinary proteins, plant pathogenesis-related proteins PR-5 and -10, uteroglobins, non-specific lipid transfer proteins, large lipid transfer proteins and proteins with chitin and other carbohydrate-binding modules. The binding expected is overviewed with regard to importance of the allergens and their ability to elicit responses proposed from experimental models. The evidence compiled showing that allergens from the same source sensitize for different types of adaptive immune responses supports the concept that individual allergens within these sources have their own distinctive interactions with innate immunity. [ABSTRACT FROM AUTHOR]

Published

2014

26. Regulation of volatile and non-volatile pheromone attractants depends upon male social status.

Author

Thoß, M., Luzynski, K. C., Enk, V. M., Razzazi-Fazeli, E., Kwak, J., Ortner, I., and Penn, D. J.

Abstract

We investigated the regulation of chemical signals of house mice living in seminatural social conditions. We found that male mice more than doubled the excretion of major urinary proteins (MUPs) after they acquired a territory and become socially dominant. MUPs bind and stabilize the release of volatile pheromone ligands, and some MUPs exhibit pheromonal properties themselves. We conducted olfactory assays and found that female mice were more attracted to the scent of dominant than subordinate males when they were in estrus. Yet, when male status was controlled, females were not attracted to urine with high MUP concentration, despite being comparable to levels of dominant males. To determine which compounds influence female attraction, we conducted additional analyses and found that dominant males differentially upregulated the excretion of particular MUPs, including the pheromone MUP20 (darcin), and a volatile pheromone that influences female reproductive physiology and behavior. Our findings show that once male house mice become territorial and socially dominant, they upregulate the amount and types of excreted MUPs, which increases the intensities of volatiles and the attractiveness of their urinary scent to sexually receptive females. [ABSTRACT FROM AUTHOR]

Published

2019

27. Effects of point mutations in the binding pocket of the mouse major urinary protein MUP20 on ligand affinity and specificity.

Author

Ricatti, Jimena, Acquasaliente, Laura, Ribaudo, Giovanni, De Filippis, Vincenzo, Bellini, Marino, Llovera, Ramiro Esteban, Barollo, Susi, Pezzani, Raffaele, Zagotto, Giuseppe, Persaud, Krishna C., and Mucignat-Caretta, Carla

Abstract

The mouse Major Urinary Proteins (MUPs) contain a conserved β-barrel structure with a characteristic central hydrophobic pocket that binds a variety of volatile compounds. After release of urine, these molecules are slowly emitted in the environment where they play an important role in chemical communication. MUPs are highly polymorphic and conformationally stable. They may be of interest in the construction of biosensor arrays capable of detection of a broad range of analytes. In this work, 14 critical amino acids in the binding pocket involved in ligand interactions were identified in MUP20 using in silico techniques and 7 MUP20 mutants were synthesised and characterised to produce a set of proteins with diverse ligand binding profiles to structurally different ligands. A single amino acid substitution in the binding pocket can dramatically change the MUPs binding affinity and ligand specificity. These results have great potential for the design of new biosensor and gas-sensor recognition elements. [ABSTRACT FROM AUTHOR]

Published

2019

28. The Post-Natal Chemosensory Environment Induces Epigenetic Changes in Vomeronasal Receptor Gene Expression and a Bias in Olfactory Preference.

Author

Broad, Kevin and Keverne, Eric

Subjects

*EPIGENETICS, *VOMERONASAL organ, *GENE expression, *SMELL disorders, *ANIMAL behavior

Abstract

Vomeronasal stem cells are generated throughout the life of a mouse and differentiate into neurons that express one vomeronasal type 1 (V1r), one or two vomeronasal type 2 (V2r), or one olfactory receptor. Vomeronasal stem cells can be induced to differentiate into neurons by treatment with lipocalins from mouse urine or by epigenetic modification following treatment with histone deacetylase inhibitors. An important question is, do chemosensory signals, modify the detection capabilities of the vomeronasal organ and affect behaviour. Rearing mice in the presence of urine (and its pheromonal signals) derived from a different mouse strain, affected the behavioural preference for non-kin which were accompanied by changes in vomeronasal receptor expression. Significant changes in the expression of vomeronasal V1r, V2r and olfactory receptors, major urinary proteins, and a number of genes thought to be involved in transcriptional regulation were also observed following urine treatment. These results suggest that modification of a mouse's urinary environment may exert epigenetic effects on developing vomeronasal neurons, which modify the type of vomeronasal receptors that are expressed. This may provide a mechanism by which environmental changes are able to modify the detection capabilities of the vomeronasal organ to respond optimally to the most likely social environment that a mouse will encounter when mature. [ABSTRACT FROM AUTHOR]

Published

2012

29. Integrated microfluidic system for electrochemical sensing of urinary proteins.

Author

Liu, Cheng-Yu, Rick, John, Chou, Tse-Chuan, Lee, Huei-Huang, and Lee, Gwo-Bin

Abstract

This study reports a new microfluidic system integrated with a microfluidic control module and a micro electrochemical module for detection of urinary proteins. The integrated microsystem can automatically detect proteins in urine with a high sensitivity. The microfluidic control module consists of a new two-way, spiral-shape micropump which can transport the urine samples to the sensing regions. The net ionic charges of the protein samples can be detected while the samples flow through the sensing region of the micro electrochemical module. Two major urinary proteins including lysozyme and albumin are detected in a multiple-channel layout with little human intervention and are analyzed in a short period of time, while only consuming a 100-μl urine sample. The developed microfluidic system could lead to a convenient, yet crucial, platform for chemical and biological detection and diagnosis. [ABSTRACT FROM AUTHOR]

Published

2009

30. Male Urinary Chemosignals Differentially Affect Aggressive Behavior in Male Mice.

Author

Carla Mucignat-Caretta, Andrea Cavaggioni, and Antonio Caretta

Abstract

Chemical signals modulate aggressive behavior in mice. For example, male urinary cues enhance aggression against other adults: a resident mouse attacks a male but not a castrated intruder, unless it is anointed with male urine. Our purpose was to understand whether molecules excreted with urine also act as aggression triggers in a different context. Therefore, the effect of urine, or molecules purified from urine, voided by different animals (males or females), was tested on the aggression of male mice against pups. Latency to the first attack, percentage of pups receiving the first attack, and percentage of attacked pups after 5 and 15 min were recorded. At variance with intermale aggression, male urinary chemosignals sprayed on pups reduced infanticide, while female urine did not. Male urine also delayed infanticide when compared to female urine. Pups anointed with low molecular weight dialyzed urine and with the high molecular weight protein fraction were attacked later than controls. Pups anointed with Major Urinary Proteins (MUPs) also were attacked later. The volatiles retained by MUPs act in the same way as adult male urine. MUPs and their ligands did not modify biting of food items. The results show that mice do not perceive male chemosignals as compulsory aggression triggers but rather can consistently and differentially shape their behavior in response to the same molecules according to different contextual events. [ABSTRACT FROM AUTHOR]

Published

2004

31. MODULATION OF EXPLORATORY BEHAVIOR IN FEMALE MICE BY PROTEIN-BONE MALE URINARY MOLECULES.

Author

Mucignat-Caretta, Carla

Subjects

MICE behavior, PHEROMONES

Abstract

Male pheromones am believed to attract females and repel male mice in open field tests but, when tested in more complex environments, they can attract male mice in usually avoided areas. Females were tested in an apparatus with one dark and one light side, in the absence or presence of male urine or the major urinary proteins (MUPs) bearing the natural ligands. Diestrous females were slower in leaving from the dark area when male urine or MUPs were present in it. Estrogen-primed females showed the opposite behavior, with an increase in the same latency. The light-avoidance behavior of prepubertal females, or females reared without males was not influenced by the presence of male chemosignals. The results show that adult female mice can react to MUPborne volatiles as to adult male urine and use them as cues of male mice, if they were previously exposed to male cues during infancy. MUP-borne molecules are, thus, the olfactory trace of males in the environment and modulate mice exploratory behavior. [ABSTRACT FROM AUTHOR]

Published

2002

32. Carbonic anhydrase IV in lizard chemical signals.

Author

Mangiacotti, Marco, Fumagalli, Marco, Casali, Claudio, Biggiogera, Marco, Forneris, Federico, and Sacchi, Roberto

Subjects

CARBONIC anhydrase, LACERTIDAE, CHEMICAL stability, LIZARDS, TRANSMISSION electron microscopy

Abstract

The evolution of chemical signals is subject to environmental constraints. A multicomponent signal may combine semiochemical molecules with supporting compounds able to enhance communication efficacy. Carbonic anhydrases (CAs) are ubiquitous enzymes catalysing the reversible hydration of carbon dioxide, a reaction involved in a variety of physiological processes as it controls the chemical environment of the different tissues or cellular compartments, thus contributing to the overall system homeostasis. CA-IV isoform has been recently identified by mass spectrometry in the femoral gland secretions (FG) of the marine iguana, where it has been hypothesized to contribute to the chemical stability of the signal, by regulating blend pH. Lizards, indeed, use FG to communicate by delivering the waxy secretion on bare substrate, where it is exposed to environmental stressors. Therefore, we expect that some molecules in the mixture may play supporting functions, enhancing the stability of the chemical environment, or even conferring homeostatic properties to the blend. CA-IV may well represent an important candidate to this hypothesized supporting/homeostatic function, and, therefore, we can expect it to be common in FG secretions of other lizard species. To evaluate this prediction and definitely validate CA identity, we analysed FG secretions of eight species of wall lizards (genus Podarcis), combining mass spectrometry, immunoblotting, immunocytochemistry, and transmission electron microscopy. We demonstrate CA-IV to actually occur in the FG of seven out of the eight considered species, providing an immunochemistry validation of mass-spectrometry identifications, and localizing the enzyme within the secretion mass. The predicted structure of the identified CA is compatible with the known enzymatic activity of CA-IV, supporting the hypothesis that CA play a signal homeostasis function and opening to new perspective about the role of proteins in vertebrate chemical communication. [ABSTRACT FROM AUTHOR]

Published

2023

33. Chemical communication and its role in sexual selection across Animalia.

Author

Buchinger, Tyler J. and Li, Weiming

Subjects

SEXUAL selection, ANIMAL diversity, LITERATURE reviews, SIGNAL detection, CHEMICAL senses

Abstract

Sexual selection has been studied as a major evolutionary driver of animal diversity for roughly 50 years. Much evidence indicates that competition for mates favors elaborate signaling traits. However, this evidence comes primarily from a few taxa, leaving sexual selection as a salient evolutionary force across Animalia largely untested. Here, we reviewed the evidence for sexual selection on communication across all animal phyla, classes, and orders with emphasis on chemoreception, the only sense shared across lifeforms. An exhaustive literature review documented evidence for sexual selection on chemosensory traits in 10 of 34 animal phyla and indications of sexual selection on chemosensory traits in an additional 13 phyla. Potential targets of sexual selection include structures and processes involved in production, delivery, and detection of chemical signals. Our review suggests sexual selection plays a widespread role in the evolution of communication and highlights the need for research that better reflects animal diversity. In this Perspective, the authors evaluate the evidence for sexual selection on communication across Animalia, with particular emphasis on chemosensory traits. [ABSTRACT FROM AUTHOR]

Published

2023

34. Cryptic kin discrimination during communal lactation in mice favours cooperation between relatives.

Author

Green, Jonathan P., Franco, Catarina, Davidson, Amanda J., Lee, Vicki, Stockley, Paula, Beynon, Robert J., and Hurst, Jane L.

Subjects

TRACERS (Chemistry), LACTATION, ENERGY consumption, COOPERATION, RELATIVES, SEX allocation, ANIMAL offspring sex ratio

Abstract

Breeding females can cooperate by rearing their offspring communally, sharing synergistic benefits of offspring care but risking exploitation by partners. In lactating mammals, communal rearing occurs mostly among close relatives. Inclusive fitness theory predicts enhanced cooperation between related partners and greater willingness to compensate for any partner under-investment, while females are less likely to bias investment towards own offspring. We use a dual isotopic tracer approach to track individual milk allocation when familiar pairs of sisters or unrelated house mice reared offspring communally. Closely related pairs show lower energy demand and pups experience better access to non-maternal milk. Lactational investment is more skewed between sister partners but females pay greater energetic costs per own offspring reared with an unrelated partner. The choice of close kin as cooperative partners is strongly favoured by these direct as well as indirect benefits, providing a driver to maintain female kin groups for communal breeding. A dual isotope tracer approach assessed milk allocation when pairs of sisters or unrelated female house mice reared offspring communally, revealing that females pay greater energetic costs when rearing offspring with an unrelated partner. [ABSTRACT FROM AUTHOR]

Published

2023

35. Female scent accelerates growth of juvenile male mice.

Author

Zala, Sarah M., Church, Brian, Potts, Wayne K., Knauer, Felix, and Penn, Dustin J.

Abstract

Exposing female house mice (Mus musculus) to male urinary scent accelerates their sexual development (Vandenbergh effect). Here, we tested whether exposing juvenile male mice to females’ urine similarly influences male growth and size of their sexual organs. We exposed three-week old male house mice to female urine or water (control) for ca. three months. We found that female-exposed males grew significantly faster and gained more body mass than controls, despite all males being reared on a controlled diet, but we detected no differences in males' muscle mass or sexual organs. In contrast, exposing juvenile males to male urine had no effect their growth. We tested whether the males' accelerated growth imposed functional trade-offs on males' immune resistance to an experimental infection. We challenged the same male subjects with an avirulent bacterial pathogen (Salmonella enterica), but found no evidence that faster growth impacted their bacterial clearance, body mass or survival during infection compared to controls. Our results provide the first evidence to our knowledge that juvenile male mice accelerate their growth when exposed to the urine of adult females, though we found no evidence that increased growth had negative trade-offs on immune resistance to infectious disease. [ABSTRACT FROM AUTHOR]

Published

2023

36. Reproductives signature revealed by protein profiling and behavioral bioassays in termite.

Author

Ruhland, Fanny, Gabant, Guillaume, Toussaint, Timothée, Nemcic, Matej, Cadène, Martine, and Lucas, Christophe

Subjects

INSECT societies, INSECT communication, CASTE discrimination, INSECT behavior, BIOLOGICAL assay, SOCIAL interaction

Abstract

Proteins are known to be social interaction signals in many species in the animal kingdom. Common mediators in mammals and aquatic species, they have seldom been identified as such in insects' behaviors. Yet, they could represent an important component to support social signals in social insects, as the numerous physical contacts between individuals would tend to favor the use of contact compounds in their interactions. However, their role in social interactions is largely unexplored: are they rare or simply underestimated? In this preliminary study, we show that, in the termite Reticulitermes flavipes, polar extracts from reproductives trigger body-shaking of workers (a vibratory behavior involved in reproductives recognition) while extracts from workers do not. Molecular profiling of these cuticular extracts using MALDI-TOF mass spectrometry reveals higher protein diversity in reproductives than in workers and a sex-specific composition exclusive to reproductives. While the effects observed with extracts are not as strong as with live termites, these results open up the intriguing possibility that social signaling may not be limited to cuticular hydrocarbons or other non-polar, volatile chemicals as classically accepted. Our results suggest that polar compounds, in particular some of the Cuticular Protein Compounds (CPCs) shown here by MALDI to be specific to reproductives, could play a significant role in insect societies. While this study is preliminary and further comprehensive molecular characterization is needed to correlate the body-shaking triggering effects with a given set of polar compounds, this exploratory study opens new perspectives for understanding the role of polar compounds such as proteins in caste discrimination, fertility signaling, or interspecific insect communication. [ABSTRACT FROM AUTHOR]

Published

2023

37. Mitochondrial complex III deficiency drives c-MYC overexpression and illicit cell cycle entry leading to senescence and segmental progeria.

Author

Purhonen, Janne, Banerjee, Rishi, Wanne, Vilma, Sipari, Nina, Mörgelin, Matthias, Fellman, Vineta, and Kallijärvi, Jukka

Subjects

CELL cycle, PROGERIA, PREMATURE aging (Medicine), MITOCHONDRIA, NUCLEAR DNA, CELLULAR aging, DNA damage

Abstract

Accumulating evidence suggests mitochondria as key modulators of normal and premature aging, yet whether primary oxidative phosphorylation (OXPHOS) deficiency can cause progeroid disease remains unclear. Here, we show that mice with severe isolated respiratory complex III (CIII) deficiency display nuclear DNA damage, cell cycle arrest, aberrant mitoses, and cellular senescence in the affected organs such as liver and kidney, and a systemic phenotype resembling juvenile-onset progeroid syndromes. Mechanistically, CIII deficiency triggers presymptomatic cancer-like c-MYC upregulation followed by excessive anabolic metabolism and illicit cell proliferation against lack of energy and biosynthetic precursors. Transgenic alternative oxidase dampens mitochondrial integrated stress response and the c-MYC induction, suppresses the illicit proliferation, and prevents juvenile lethality despite that canonical OXPHOS-linked functions remain uncorrected. Inhibition of c-MYC with the dominant-negative Omomyc protein relieves the DNA damage in CIII-deficient hepatocytes in vivo. Our results connect primary OXPHOS deficiency to genomic instability and progeroid pathogenesis and suggest that targeting c-MYC and aberrant cell proliferation may be therapeutic in mitochondrial diseases. Mitochondria modulate both normal and premature aging, yet if primary oxidative phosphorylation deficiency can cause progeria has been unclear. Here, the authors show that mice with severe isolated respiratory complex III deficiency display cellular senescence and juvenile-onset segmental progeria. [ABSTRACT FROM AUTHOR]

Published

2023

38. Dynamic changes to signal allocation rules in response to variable social environments in house mice.

Author

Miller, Caitlin H., Hillock, Matthew F., Yang, Jay, Carlson-Clarke, Brandon, Haxhillari, Klaudio, Lee, Annie Y., Warden, Melissa R., and Sheehan, Michael J.

Subjects

ODORS, TERRITORIAL marking (Animals), SOCIETAL reaction, SOCIAL context, THERMOGRAPHY, TIME management, MICE

Abstract

Urine marking is central to mouse social behavior. Males use depletable and costly urine marks in intrasexual competition and mate attraction. We investigate how males alter signaling decisions across variable social landscapes using thermal imaging to capture spatiotemporal marking data. Thermal recording reveals fine-scale adjustments in urinary motor patterns in response to competition and social odors. Males demonstrate striking winner-loser effects in scent mark allocation effort and timing. Competitive experience primes temporal features of marking and modulates responses to scent familiarity. Males adjust signaling effort, mark latency, and marking rhythm, depending on the scent identities in the environment. Notably, recent contest outcome affects how males respond to familiar and unfamiliar urine. Winners increase marking effort toward unfamiliar relative to familiar male scents, whereas losers reduce marking effort to unfamiliar but increase to familiar rival scents. All males adjust their scent mark timing after a contest regardless of fight outcome, and deposit marks in more rapid bursts during marking bouts. In contrast to this dynamism, initial signal investment predicts aspects of scent marking days later, revealing the possibility of alternative marking strategies among competitive males. These data show that mice flexibly update their signaling decisions in response to changing social landscapes. Scent marking behaviors in male house mice are dynamic and are adjusted based on social competition. [ABSTRACT FROM AUTHOR]

Published

2023

39. Brown bear skin-borne secretions display evidence of individuality and age-sex variation.

Author

Clapham, Melanie, Wilson, Abbey E., Williams, Candace L., and Sergiel, Agnieszka

Subjects

BROWN bear, SECRETION, ODORS, TERRITORIAL marking (Animals), VOLATILE organic compounds, INDIVIDUALITY

Abstract

Scent originates from excretions and secretions, and its chemical complexity in mammals translates into a diverse mode of signalling. Identifying how information is encoded can help to establish the mechanisms of olfactory communication and the use of odours as chemical signals. Building upon existing behavioural and histological literature, we examined the chemical profile of secretions used for scent marking by a solitary, non-territorial carnivore, the brown bear (Ursus arctos). We investigated the incidence, abundance, and uniqueness of volatile organic compounds (VOCs) from cutaneous glandular secretions of 12 wild brown bears collected during late and post-breeding season, and assessed whether age-sex class, body site, and individual identity explained profile variation. VOC profiles varied in the average number of compounds, compound incidence, and compound abundance by age-sex class and individual identity (when individuals were grouped by sex), but not by body site. Mature males differed from other age-sex classes, secreting fewer compounds on average with the least variance between individuals. Compound uniqueness varied by body site and age for both males and females and across individuals. Our results indicate that brown bear skin-borne secretions may facilitate age-sex class and individual recognition, which can contribute towards further understanding of mating systems and social behaviour. [ABSTRACT FROM AUTHOR]

Published

2023

40. A rodent model for Dirofilaria immitis, canine heartworm: parasite growth, development, and drug sensitivity in NSG mice.

Author

Hess, Jessica A., Eberhard, Mark L., Segura-Lepe, Marcelo, Grundner-Culemann, Kathrin, Kracher, Barbara, Shryock, Jeffrey, Harrington, John, and Abraham, David

Subjects

DIROFILARIA immitis, MICE, RODENTS, PARASITES, INFECTION control, MOXIDECTIN

Abstract

Heartworm disease, caused by Dirofilaria immitis, remains a significant threat to canines and felines. The development of parasites resistant to macrocyclic lactones (ML) has created a significant challenge to the control of the infection. The goal of this study was to determine if mice lacking a functional immune response would be susceptible to D. immitis. Immunodeficient NSG mice were susceptible to the infection, sustaining parasites for at least 15 weeks, with infective third-stage larvae molting and developing into the late fourth-stage larvae. Proteomic analysis of host responses to the infection revealed a complex pattern of changes after infection, with at least some of the responses directed at reducing immune control mechanisms that remain in NSG mice. NSG mice were infected with isolates of D. immitis that were either susceptible or resistant to MLs, as a population. The susceptible isolate was killed by ivermectin whereas the resistant isolate had improved survivability, while both isolates were affected by moxidectin. It was concluded that D. immitis survives in NSG mice for at least 15 weeks. NSG mice provide an ideal model for monitoring host responses to the infection and for testing parasites in vivo for susceptibility to direct chemotherapeutic activity of new agents. [ABSTRACT FROM AUTHOR]

Published

2023

41. The Presence Of Strange Males' Odor Induces Behavioral Responses And Elevated Levels Of Low Molecular Weight Proteins Excreted In The Urine Of Mature Water Vole Males ( Arvicola amphibius L).

Author

Nazarova, Galina, Proskurniak, Lyudmila, and Yuzhik, Ekaterina

Subjects

ARVICOLA, RODENT odor, RODENT communication, RODENT geographical distribution, HOME range (Animal geography), CHEMORECEPTORS, BEHAVIOR

Abstract

We hypothesized that low molecular weight urinary proteins play a role in male-male chemical communication in the water vole, Arvicola ampibius L. We studied the effect of placing soiled litter from strange males into the cage of another sexually mature male on the intensity of its digging and scattering, urination on the litter, and alteration in the levels of low molecular weight proteins (15-25 kDa) excreted in the urine before and after 4 days of exposure as determined by chip electrophoresis. The intensity of digging and scattering was positively correlated with levels of testosterone in serum of males exposed to strange male odors ( r = 0.56; P < 0.01), as well as with the concentration of low molecular weight proteins in the donor's urine ( r = 0.52, P < 0.05). At the end of the experiment, the level of low molecular weight protein in excreted urine was elevated in the males exposed to the strange male's litter. These results highlight the importance of quantitative inter-individual variation of low molecular weight urinary proteins in the modulation of the physiology and behavior of conspecifics. [ABSTRACT FROM AUTHOR]

Published

2016

42. Associative learning is necessary for airborne pheromones to activate sexual arousal-linked brain areas of female rats.

Author

Zhang, Yao-Hua, Tang, Ming-Ming, Guo, Xiao, Gao, Xiao-Rong, Zhang, Jin-Hua, and Zhang, Jian-Xu

Subjects

ASSOCIATIVE learning, SEXUAL excitement, HYPOTHALAMUS, PHEROMONES, RATS, ODORS

Abstract

In rodents, urine-borne male pheromones include volatile organic compounds (VOCs) and major urinary proteins (MUPs). In mice, the attraction of females to male odor is reportedly acquired through associative learning with MUPs in some studies. Here, we found that VOC and MUP sex pheromones were differentiated in rats at around 8 weeks of age and that females separated from males at weaning showed no preference for male urine odor after sexual maturity. Olfactory preferences could be gained in females after repeated experience of VOC pheromones alone as well as male urine or a blend of synthetic VOC pheromones and recombinant MUPs. However, differences in acquired olfactory preferences for male urine were further revealed by neuro-immuno-histochemical studies. The blend exhibited neural activation in the main olfactory system (MOS), accessory system (AOS), and the ventromedial hypothalamus (VMH), indicating sexual arousal, whereas the VOC alone only caused neural activation of MOS. We suggest that olfactory preference is generated through repeated experience of either VOCs or a blend of VOCs and MUPs, but the neural activations related to sexual arousal have to be acquired through associative learning with MUPs in female rats. Significance statement: When adult female rats were separated from males before maturity, they lost their attraction to male urine odor. Female preference to volatiles in male urine could be gained by repeated experience of volatile and protein pheromones. Brain regions related to sexual arousal were activated by male urine in females with experience of VOCs together with MUPs but not in those experienced with VOCs alone. Associative learning between VOC and MUP pheromones is necessary for male urine odor-induced FOS responses in the key regions for sexual arousal/excitement in female rats. [ABSTRACT FROM AUTHOR]

Published

2019

43. Sex pheromone levels are associated with paternity rate in brown rats.

Author

Zhang, Yao-Hua, Zhao, Lei, Guo, Xiao, Zhang, Jin-Hua, and Zhang, Jian-Xu

Subjects

PHEROMONES, PATERNITY, RATS, SEXUAL attraction, HEPTANONES

Abstract

Abstract: In muroid rodents, urine-borne volatile compounds and major urinary proteins (MUPs) constitute the key male pheromones that shape the sexual attractiveness of males. Here, we aimed to examine whether male pheromone levels were related to sexual attractiveness and reproductive success in the North China subspecies of the brown rat (Rattus norvegicus humiliatus). According to the abundance of 2-heptanone (2H), the predominant male pheromone in male urine, male rats were first categorized into a high-2H group and a low-2H group. The levels of the whole volatile profile and non-volatile MUPs were found to be higher in the high-2H group than in the low-2H group. Moreover, the abundances of urinary volatile pheromones or pheromone candidates were positively correlated with the abundance of total MUPs. Two-way choice tests revealed that male urine from the high-2H group was more attractive to females than that from the low-2H group. Microsatellite loci analysis of paternal lineage revealed that the females had single-paternity offspring and that the high-2H group sired more offspring and had higher rates of paternity than did the low-2H group. These results suggest that urine-borne volatile pheromones alone or together with MUP pheromones can predict sexual attractiveness and reproductive success in male rats.Significance statement: Sexual attractiveness can be quantified using volatile and MUP pheromones and their candidates in deposited urine. 2-Heptanone (a major pheromone) and other urine-borne volatile pheromones or their candidates and total MUPs showed the same difference patterns in males and predicted male sexual attractiveness. The abundances of volatile pheromones or their candidates and total MUPs were associated with reproductive success and paternity rate in males. [ABSTRACT FROM AUTHOR]

Published

2019

44. Current Theories in Odorant Binding.

Author

Malliou, Faye and Pavlidis, Pavlos

Published

2022

45. An odorant-binding protein in the elephant's trunk is finely tuned to sex pheromone (Z)-7-dodecenyl acetate.

Author

Zaremska, Valeriia, Renzone, Giovanni, Arena, Simona, Ciaravolo, Valentina, Buberl, Andreas, Balfanz, Folko, Scaloni, Andrea, Knoll, Wolfgang, and Pelosi, Paolo

Subjects

ODORANT-binding proteins, ASIATIC elephant, AFRICAN elephant, PHEROMONES, ELEPHANTS, OLFACTORY receptors

Abstract

Chemical communication in elephants has been well studied at the chemical and behavioural levels. Pheromones have been identified in the Asian elephant (Elephas maximus), including (Z)-7-dodecenyl acetate and frontalin, and their specific effects on the sexual behaviour of elephants have been accurately documented. In contrast, our knowledge on the proteins mediating detection of pheromones in elephants remains poor and superficial, with only three annotated and reliable entries in sequence databases, two of them being odorant-binding proteins (OBPs), and the third a member of von Ebner's gland (VEG) proteins. Proteomic analysis of trunk wash extract from African elephant (Loxodonta africana) identified one of the OBPs (LafrOBP1) as the main component. We therefore expressed LafrOBP1 and its Asian elephant orthologue in yeast Pichia pastoris and found that both recombinant proteins, as well as the natural LafrOBP1 are tuned to (Z)-7-dodecenyl acetate, but have no affinity for frontalin. Both the natural and recombinant LafrOBP1 carry post-translational modifications such as O-glycosylation, phosphorylation and acetylation, but as these modifications affect only a very small amount of the protein, we cannot establish their potential effects on the ligand-binding properties of OBP1. [ABSTRACT FROM AUTHOR]

Published

2022

46. A spatiotemporally resolved single-cell atlas of the Plasmodium liver stage.

Author

Afriat, Amichay, Zuzarte-Luís, Vanessa, Bahar Halpern, Keren, Buchauer, Lisa, Marques, Sofia, Chora, Ângelo Ferreira, Lahree, Aparajita, Amit, Ido, Mota, Maria M., and Itzkovitz, Shalev

Abstract

Malaria infection involves an obligatory, yet clinically silent liver stage1,2. Hepatocytes operate in repeating units termed lobules, exhibiting heterogeneous gene expression patterns along the lobule axis3, but the effects of hepatocyte zonation on parasite development at the molecular level remain unknown. Here we combine single-cell RNA sequencing4 and single-molecule transcript imaging5 to characterize the host and parasite temporal expression programmes in a zonally controlled manner for the rodent malaria parasite Plasmodium berghei ANKA. We identify differences in parasite gene expression in distinct zones, including potentially co-adaptive programmes related to iron and fatty acid metabolism. We find that parasites develop more rapidly in the pericentral lobule zones and identify a subpopulation of periportally biased hepatocytes that harbour abortive infections, reduced levels of Plasmodium transcripts and parasitophorous vacuole breakdown. These ‘abortive hepatocytes’, which appear predominantly with high parasite inoculum, upregulate immune recruitment and key signalling programmes. Our study provides a resource for understanding the liver stage of Plasmodium infection at high spatial resolution and highlights the heterogeneous behaviour of both the parasite and the host hepatocyte.Single-cell RNA sequencing and single-molecule RNA transcript imaging have been used to characterize spatially and temporally resolved mouse liver and parasite expression programmes during infection with the rodent malaria parasite Plasmodium berghei ANKA. [ABSTRACT FROM AUTHOR]

Published

2022

47. Nephrotoxicity evaluation and proteomic analysis in kidneys of rats exposed to thioacetamide.

Author

Lim, Ji-youn, Jung, Woon-Won, Kim, Woojin, Moon, Kyoung-Sik, and Sul, Donggeun

Subjects

PROTEOMICS, KIDNEYS, NEPHROTOXICOLOGY, THIOACETAMIDE, WESTERN immunoblotting

Abstract

Thioacetamide (TAA) was administered orally at 0, 10, and 30 mg/kg body weight (BW) daily to Sprague–Dawley rats aged 6–7 weeks for 28 consecutive days. Nephrotoxicity and proteomics were evaluated in the kidneys of rats exposed to TAA. The BW decreased, however, the relative kidneys weight increased. No significant histopathologic abnormalities were found in the kidneys. The numbers of monocytes and platelets were significantly increased. However, the mean corpuscular volume and hematocrit values were decreased significantly in rats exposed to 30 mg/kg BW TAA. The expression levels of Kim-1 and NGAL were increased 4 to 5-fold in the kidneys, resulting in significant nephrotoxicity. Proteomic analysis was conducted and a total of 5221 proteins spots were resolved. Of these, 3 and 21 protein spots were up- and downregulated, respectively. The validation of seven proteins was performed by Western blot analysis. The expression level of ASAP2 was significantly upregulated, whereas RGS14, MAP7Dl, IL-3Rα, Tmod1, NQO2, and MUP were reduced. Sixteen isoforms of MUP were found by the 2DE immunoblot assay and were significantly downregulated with increasing exposure to TAA. MUP isoforms were compared in the liver, kidneys, and urine of untreated rats and a total of 43 isoforms were found. [ABSTRACT FROM AUTHOR]

Published

2022

48. Identification of Potential Megalin/Cubilin Substrates Using Extensive Proteomics Quantification from Kidney Megalin-Knockdown Mice.

Author

Zhao, Bei, Tu, Chengjian, Shen, Shichen, Qu, Jun, and Morris, Marilyn E.

Abstract

Megalin and cubilin, endocytic proteins present in the proximal tubule of the kidney, are responsible for reabsorbing filtered proteins from urine. Our hypothesis was that potential substrates of megalin/cubilin could be identified by examining urinary protein differences between control (WT) mice and kidney-specific megalin knockdown (KD) mice. Using the IonStar proteomics approach, 877 potential megalin/cubilin substrates were discovered, with 23 of these compounds representing known megalin/cubilin substrates. Some of the proteins with the largest fold changes in the urine between KD and WT included the known megalin substrates retinol-binding protein and vitamin D-binding protein. Of the total proteins identified as novel substrates, about three-quarters of compounds had molecular weights (MWs) below 69 kDa, the MW of albumin, and the remaining had higher MWs, with about 5% of the proteins having MWs greater than 150 kDa. Sex differences in the number of identified substrates occurred, but this may be due to differences in kidney megalin expression between both male and female megalin KD and WT animals, with the ratio of megalin between WT and KD being 2.76 and 2.14 for female and male mice, respectively. The top three ingenuity canonical pathways based on the urinary proteins in both female and male KD mice were acute phase response signaling, liver X receptor/retinoid X receptor activation, and intrinsic prothrombin activation pathways. In conclusion, analysis of urine samples from kidney-specific megalin KD and WT mice was found to be useful for the identification of potential endogenous substrates for megalin and cubilin. [ABSTRACT FROM AUTHOR]

Published

2022

49. A pachyderm perfume: odour encodes identity and group membership in African elephants.

Author

von Dürckheim, Katharina E. M., Hoffman, Louwrens C., Poblete-Echeverría, Carlos, Bishop, Jacqueline M., Goodwin, Thomas E., Schulte, Bruce A., and Leslie, Alison

Subjects

AFRICAN elephant, GROUP identity, ODORS, SHORT-chain fatty acids, OLFACTORY perception, SOCIAL status, SOCIAL cohesion

Abstract

Group-living animals that live in complex social systems require effective modes of communication to maintain social cohesion, and several acoustic, olfactory and visual signaling systems have been described. Individuals need to discriminate between in- and out-group odour to both avoid inbreeding and to identify recipients for reciprocal behaviour. The presence of a unique group odour, identified in several social mammals, is a proposed mechanism whereby conspecifics can distinguish group from non-group members. African elephants (Loxodonta africana) live in stable, socially complex, multi-female, fission–fusion groups, characterized by female philopatry, male dispersal and linear dominance hierarchies. Elephant social behaviour suggests that individuals use odour to monitor the sex, reproductive status, location, health, identity and social status of conspecifics. To date, it is not clear what fixed or variable information is contained in African elephant secretions, and whether odour encodes kinship or group membership information. Here we use SPME GC–MS generated semiochemical profiles for temporal, buccal and genital secretions for 113 wild African elephants and test their relationship with measures of genetic relatedness. Our results reveal the existence of individual identity odour profiles in African elephants as well as a signature for age encoded in temporal gland and buccal secretions. Olfactory signatures for genetic relatedness were found in labial secretions of adult sisters. While group odour was not correlated with group genetic relatedness, our analysis identified "group membership" as a significant factor explaining chemical differences between social groups. Saturated and short-chain fatty acids (SCFAs), derived from key volatile compounds from bacterial fermentation, were identified in temporal, buccal and genital secretions suggesting that group odour in African elephants may be the result of bacterial elements of the gut microbiome. The frequent affiliative behavior of African elephants is posited as a likely mechanism for bacterial transmission. Our findings favour flexible group-specific bacterial odours, which have already been proposed for other social mammals and present a useful form of olfactory communication that promotes bond group cohesion among non-relatives in fission–fusion mammals. [ABSTRACT FROM AUTHOR]

Published

2022

50. Urinary Lipocalins in Rodenta:is there a Generic Model?

Author

Hurst, Jane L., Beynon, Robert J., Roberts, S. Craig, Wyatt, Tristram D., Turton, Michael J., Robertson, Duncan H. L., Armstrong, Stuart D., Cheetham, Sarah A., Simpson, Deborah, MacNicoll, Alan, and Humphries, Richard E.

Abstract

It is increasingly clear that mediation of chemical signals is not the exclusive domain of low molecular volatile or water soluble metabolites. Pheromone binding proteins play an important role in mediating the activity of low molecular weight compounds, while proteins and peptides can also act as information molecules in their own right. Understanding of the role played by proteins in scents has been derived largely from the study of Major Urinary Proteins (MUPs) in the mouse (Mus musculus domesticus) and the rat (Rattus norvegicus). As part of an ongoing programme to explore the diversity and complexity of urinary proteins in rodents, we have applied a proteomics-based approach to the analysis of urinary proteins from a wider range of rodents. These data suggest that many species express proteins in their urine that are structurally similar to the MUPs, although there is considerable diversity in concentration, in sexual dimorphism and in polymorphic complexity. This is likely to reflect a high degree of species-specificity in communication and the information that these proteins provide in scent signals. [ABSTRACT FROM AUTHOR]

Published

2008