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6. Phylogenomics reveals the evolutionary timing and pattern of butterflies and moths

Author

Kawahara, A.Y. (Akito Y.), Plotkin, D. (David), Espeland, M. (Marianne), Meusemann, K. (Karen), Toussaint, E.F.A. (Emmanuel F.A.), Donath, A. (Alexander), Gimnich, F. (France), Frandsen, P.B. (Paul B.), Zwick, A. (Andreas), dos Reis, M. (Mario), Barber, J.R. (Jesse R.), Peters, R.S. (Ralph S.), Liu, S. (Shanlin), Zhou, X. (Xin), Mayer, C. (Christoph), Podsiadlowski, L. (Lars), Storer, C. (Caroline), Yack, J. (Jayne), Misof, B. (Bernhard), Breinholt, J.W. (Jesse W.), Kawahara, A.Y. (Akito Y.), Plotkin, D. (David), Espeland, M. (Marianne), Meusemann, K. (Karen), Toussaint, E.F.A. (Emmanuel F.A.), Donath, A. (Alexander), Gimnich, F. (France), Frandsen, P.B. (Paul B.), Zwick, A. (Andreas), dos Reis, M. (Mario), Barber, J.R. (Jesse R.), Peters, R.S. (Ralph S.), Liu, S. (Shanlin), Zhou, X. (Xin), Mayer, C. (Christoph), Podsiadlowski, L. (Lars), Storer, C. (Caroline), Yack, J. (Jayne), Misof, B. (Bernhard), and Breinholt, J.W. (Jesse W.)

Abstract

Butterflies and moths (Lepidoptera) are one of the major superradiations of insects, comprising nearly 160,000 described extant species. As herbivores, pollinators, and prey, Lepidoptera play a fundamental role in almost every terrestrial ecosystem. Lepidoptera are also indicators of environmental change and serve as models for research on mimicry and genetics. They have been central to the development of coevolutionary hypotheses, such as butterflies with flowering plants and moths’ evolutionary arms race with echolocating bats. However, these hypotheses have not been rigorously tested, because a robust lepidopteran phylogeny and timing of evolutionary novelties are lacking. To address these issues, we inferred a comprehensive phylogeny of Lepidoptera, using the largest dataset assembled for the order (2,098 orthologous protein-coding genes from transcriptomes of 186 species, representing nearly all superfamilies), and dated it with carefully evaluated synapomorphybased fossils. The oldest members of the Lepidoptera crown group appeared in the Late Carboniferous (∼300 Ma) and fed on nonvascular land plants. Lepidoptera evolved the tube-like proboscis in the Middle Triassic (∼241 Ma), which allowed them to acquire nectar from flowering plants. This morphological innovation, along with other traits, likely promoted the extraordinary diversification of superfamily-level lepidopteran crown groups. The ancestor of butterflies was likely nocturnal, and our results indicate that butterflies became day-flying in the Late Cretaceous (∼98 Ma). Moth hearing organs arose multiple times before the evolutionary arms race between moths and bats, perhaps initially detecting a wide range of sound frequencies before being co-opted to specifically detect bat sonar. Our study provides an essential framework for future comparative studies on butterfly and moth evolution.

Published
2019
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10. Are all my volunteers here to help out? Clustering events volunteers by their motivations

Author

Lockstone-Binney, L., Holmes, Kirsten, Smith, K., Baum, T., Storer, C., Lockstone-Binney, L., Holmes, Kirsten, Smith, K., Baum, T., and Storer, C.

Abstract

Posed as a question that an event organizer might contemplate in terms of how best to attract and retain event volunteers, this study adds to the event volunteering literature by cluster analysing volunteers sampled at four sports events using items from the Special Event Volunteer Motivation Scale (SEVMS). The 28 items were first subjected to Exploratory Factor Analysis resulting in four factors (Solidary, Purposive, External Traditions/Commitments, and Spare Time), followed by a two-step clustering procedure and a series of post hoc tests to describe and validate the clusters. As a result of this procedure, three distinct clusters were formed: the Altruists, Socials, and Indifferents. The Altruists and Socials were primarily driven by two distinct internal factors, which respectively represented the Purposive and Solidary factors. The Indifferents appeared to be pushed into volunteering by external forces, rather than intrinsic motivations. Validation revealed that the Indifferents were significantly less satisfied with their volunteer experience than the other two clusters and were also less likely to volunteer in the future. Across the four events sampled, there were distinct patterns of cluster representation, with one event in particular substantially overrepresented by the more negatively inclined Indifferents. The management and research implications of these findings are discussed.

Published
2015

12. Membrane/microtubule tip attachment complexes (TACs) allow the assembly dynamics of plus ends to push and pull membranes into tubulovesicular networks in interphase Xenopus egg extracts

Author

Waterman-Storer, C. M.

Abstract

We discovered by using high resolution video microscopy, that membranes become attached selectively to the growing plus ends of microtubules by membrane/microtubule tip attachment complexes (TACs) in interphase- arrested, undiluted, Xenopus egg extracts. Persistent plus end growth of stationary microtubules pushed the membranes into thin tubules and dragged them through the cytoplasm at the approximately 20 microns/min velocity typical of free plus ends. Membrane tubules also remained attached to plus ends when they switched to the shortening phase of dynamic instability at velocities typical of free ends, 50-60 microns/min. Over time, the membrane tubules contacted and fused with one another along their lengths, forming a polygonal network much like the distribution of ER in cells. Several components of the membrane networks formed by TACs were identified as ER by immunofluorescent staining using antibodies to ER-resident proteins. TAC motility was not inhibited by known inhibitors of microtubule motor activity, including 5 mM AMP-PNP, 250 microM orthovanadate, and ATP depletion. These results show that membrane/microtubule TACs enable polymerizing ends to push and depolymerizing ends to pull membranes into thin tubular extensions and networks at fast velocities.

Published
1995
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19. Rapid dynamics of the microtubule binding of ensconsin in vivo.

Author

C, Bulinski J, J, Odde D, J, Howell B, D, Salmon T, and M, Waterman-Storer C

Abstract

Microtubule-associated proteins (MAPs) are proteins that reversibly bind to and regulate microtubule dynamics and functions in vivo. We examined the dynamics of binding of a MAP called ensconsin (E-MAP-115) to microtubules in vivo. We used 5xGFP-EMTB, a construct in which the microtubule-binding domain of ensconsin (EMTB) is fused to five copies of green fluorescent protein (GFP), as a reporter molecule amenable to the use of fluorescent speckle microscopy. Fluorescent speckle microscopy (FSM) sequences and kymograph analyses showed rapid dynamics of speckles comprised of 5xGFP-EMTB in untreated cells. By contrast, in detergent-lysed cytoskeletons, speckles were not dynamic. Since detergent-lysed cytoskeletons differ from living cells in that they lack both ATP and dynamic microtubules, we used azide treatment to substantially reduce the level of ATP in living cells and we used Taxol to halt microtubule dynamics. Both treatments slowed the dynamics of 5xGFP-EMTB speckles observed by FSM. We also used fluorescence recovery after photobleaching (FRAP) to quantify the half-time of binding and dissociation of the 5xGFP-EMTB chimera and to compare this half-time to that of the full-length MAP molecule. In untreated cells, the t(g) of either 5xGFP-EMTB or full-length GFP-ensconsin was similarly rapid (approximately 4 seconds), while in ATP-reduced and Taxol-treated cells, t(g) was increased to 210 seconds and 40 seconds, respectively. In detergent-extracted cells no recovery was seen. Consistent with the rapid dynamics of 5xGFP-EMTB measured with fluorescent speckle microscopy and FRAP, we estimated that the affinity of the MAP for microtubules is approximately 40 microM in untreated living cells, compared with approximately 1 microM in vitro. However, K(D,app) was not significantly changed in the presence of azide and was increased to 110 microM in the presence of Taxol. To test whether changes in the phosphorylation state of cellular proteins might be responsible for altering the dynamics of ensconsin binding, we used FSM to monitor staurosporine-treated cells. Staurosporine treatment substantially halted dynamics of 5xGFP-EMTB speckles along MTs. Our results show that ensconsin is highly dynamic in its association with microtubules, and its microtubule association can be altered by in vivo phosphorylation events.

Published
2001

20. Cell motility: can Rho GTPases and microtubules point the way?

Author

T, Wittmann and M, Waterman-Storer C

Abstract

Migrating cells display a characteristic polarization of the actin cytoskeleton. Actin filaments polymerise in the protruding front of the cell whereas actin filament bundles contract in the cell body, which results in retraction of the cell's rear. The dynamic organization of the actin cytoskeleton provides the force for cell motility and is regulated by small GTPases of the Rho family, in particular Rac1, RhoA and Cdc42. Although the microtubule cytoskeleton is also polarized in a migrating cell, and microtubules are essential for the directed migration of many cell types, their role in cell motility is not well understood at a molecular level. Here, we discuss the potential molecular mechanisms for interplay of microtubules, actin and Rho GTPase signalling in cell polarization and motility. Recent evidence suggests that microtubules locally modulate the activity of Rho GTPases and, conversely, Rho GTPases might be responsible for the initial polarization of the microtubule cytoskeleton. Thus, microtubules might be part of a positive feedback mechanism that maintains the stable polarization of a directionally migrating cell.

Published
2001

21. Feedback interactions between cell-cell adherens junctions and cytoskeletal dynamics in newt lung epithelial cells.

Author

M, Waterman-Storer C, C, Salmon W, and D, Salmon E

Abstract

To test how cell-cell contacts regulate microtubule (MT) and actin cytoskeletal dynamics, we examined dynamics in cells that were contacted on all sides with neighboring cells in an epithelial cell sheet that was undergoing migration as a wound-healing response. Dynamics were recorded using time-lapse digital fluorescence microscopy of microinjected, labeled tubulin and actin. In fully contacted cells, most MT plus ends were quiescent; exhibiting only brief excursions of growth and shortening and spending 87.4% of their time in pause. This contrasts MTs in the lamella of migrating cells at the noncontacted leading edge of the sheet in which MTs exhibit dynamic instability. In the contacted rear and side edges of these migrating cells, a majority of MTs were also quiescent, indicating that cell-cell contacts may locally regulate MT dynamics. Using photoactivation of fluorescence techniques to mark MTs, we found that MTs in fully contacted cells did not undergo retrograde flow toward the cell center, such as occurs at the leading edge of motile cells. Time-lapse fluorescent speckle microscopy of fluorescently labeled actin in fully contacted cells revealed that actin did not flow rearward as occurs in the leading edge lamella of migrating cells. To determine if MTs were required for the maintenance of cell-cell contacts, cells were treated with nocodazole to inhibit MTs. After 1-2 h in either 10 microM or 100 nM nocodazole, breakage of cell-cell contacts occurred, indicating that MT growth is required for maintenance of cell-cell contacts. Analysis of fixed cells indicated that during nocodazole treatment, actin became reduced in adherens junctions, and junction proteins alpha- and beta-catenin were lost from adherens junctions as cell-cell contacts were broken. These results indicate that a MT plus end capping protein is regulated by cell-cell contact, and in turn, that MT growth regulates the maintenance of adherens junctions contacts in epithelia.

Published
2000

22. E-MAP-115 (ensconsin) associates dynamically with microtubules in vivo and is not a physiological modulator of microtubule dynamics.

Author

Faire, K, Waterman-Storer, C M, Gruber, D, Masson, D, Salmon, E D, and Bulinski, J C

Abstract

Microtubule-associated proteins (MAPs) have been hypothesized to regulate microtubule dynamics and/or functions. To test hypotheses concerning E-MAP-115 (ensconsin) function, we prepared stable cell lines expressing conjugates in which the full-length MAP (Ensc) or its microtubule-binding domain (EMTB) was conjugated to one or more green fluorescent protein (GFP) molecules. Because both distribution and microtubule-binding properties of GFP-Ensc, GFP-EMTB, and 2x, 3x, or 4xGFP-EMTB chimeras all appeared to be identical to those of endogenous E-MAP-115 (ensconsin), we used the 2xGFP-EMTB molecule as a reporter for the behavior and microtubule-binding function of endogenous MAP. Dual wavelength time-lapse fluorescence imaging of 2xGFP-EMTB in cells microinjected with labeled tubulin revealed that this GFP-MAP chimera associated with the lattice of all microtubules immediately upon polymerization and dissociated concomitant with depolymerization, suggesting that dynamics of MAP:microtubule interactions were at least as rapid as tubulin:microtubule dynamics in the polymerization reaction. Presence of both GFP-EMTB chimeras and endogenous E-MAP-115 (ensconsin) along apparently all cellular microtubules at all cell cycle stages suggested that the MAP might function in modulating stability or dynamics of microtubules, a capability shown previously in transiently transfected cells. Although cells with extremely high expression levels of GFP-EMTB chimera exhibited stabilized microtubules, cells expressing four to ten times the physiological level of endogenous MAP exhibited microtubule dynamics indistinguishable from those of untransfected cells. This result shows that E-MAP-115 (ensconsin) is unlikely to function as a microtubule stabilizer in vivo. Instead, this MAP most likely serves to modulate microtubule functions or interactions with other cytoskeletal elements.

Published
1999

24. The product of the Drosophila gene, Glued, is the functional homologue of the p150Glued component of the vertebrate dynactin complex.

Author

Waterman-Storer, C M and Holzbaur, E L

Abstract

p150Glued is the largest polypeptide in the dynactin complex, a protein heteromultimer that binds to and may mediate the microtubule-based motor cytoplasmic dynein. Cloning of a cDNA encoding p150Glued from rat revealed 31% amino acid sequence identity with the product of the Drosophila gene, Glued. A dominant Glued mutation results in neuronal disruption; null mutations are lethal. However, the Glued gene product has not been characterized. To determine whether the Glued polypeptide is functionally similar to vertebrate p150Glued, we characterized the Glued protein in the Drosophila S-2 cell line. Antibodies raised against Glued were used to demonstrate that this protein sediments exclusively at 20 S, and associates with microtubules in a salt- and ATP-dependent manner. Immunoprecipitations from S-2 cytosol with the anti-Glued antibody resulted in the co-precipitation of subunits of both cytoplasmic dynein and the dynactin complex. An affinity column with covalently bound Glued protein retained cytoplasmic dynein from S-2 cytosol. Based on these observations, we conclude that Glued is a component of a dynactin complex in Drosophila and binds to cytoplasmic dynein, and therefore the mutant Glued phenotypes can be interpreted as resulting from a disruption in the function of the dynactin complex.

Published
1996

28. Beautiful California waltz

Author

De Witt, Raymond (Lyricist), Storer, C. E. (Composer), De Witt, Raymond (Lyricist), and Storer, C. E. (Composer)

Published
1921

30. Anonymous Correspondent of the Lancet

Author

Williams, J. C., primary, Higginbottom, J., additional, Storer, C., additional, Eddison, B., additional, Wilson, T., additional, Sibson, F., additional, Davison, R., additional, Thompson, J. N., additional, White, G. M., additional, and Taylor, H., additional

Published
1844
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32. Analysis of a novel synergistic relationship between the FK506 binding protein FKBP52 and beta catenin in androgen receptor signaling pathways.

Author

Storer, C. L., Olivares, K., Fletterick, R. J., Webb, P., and Cox, M. B.

Subjects
*CANCER research, *HORMONE-dependent tumors, *HEAT shock proteins, *IMMUNOPHILINS, *PROSTATE cancer, *ANDROGEN receptors, *STANOLONE, *BREAST cancer
Abstract

Hormone-dependent cancers depend largely on folding and regulation by a chaperone-steroid receptor complex. The final stage of the receptor-chaperone complex consists of a receptor, a heat shock protein 90 (Hsp90) dimer, p23, and an immunophilin. Hormone-dependent prostate cancer progresses due to key interactions between the androgen receptor complex and the ligand dihydrotestosterone. While current treatments block androgen receptor-ligand interactions, these therapies are no longer effective in advanced stage, hormone independent prostate cancer (HRPC), when the receptor is activated even in miniscule levels of hormone. Therefore, we are interested in targeting other members of the androgen receptor complex and signaling cascade, namely the immunophilin FK506 binding protein (FKBP52) and the Wnt cell signaling protein β-catenin. FKBP52 has the ability to potentiate activity of the androgen, progesterone, and glucocorticoid receptors and is a prostate cancer biomarker. β-catenin is a member of the cellular adhesion complex with E-cadherin in healthy cells, but in aberrant situations, β-catenin actively promotes progression and invasion in a number of cancers. Our data from FKBP52 knockout mouse embryonic fibroblast cell lines suggests that FKBP52 and β-catenin work in tandem to synergize androgen receptor (AR) transcriptional activity with the probasin promoter. When AR, FKBP52, and β-catenin are co-transfected, a synergistic up-regulation of AR signaling is observed, as assessed by luciferase reporter assays. According to pull down assays, FKBP52 and β-catenin can interact in the absence of other proteins. Luciferase assays of mutant FKBP52 proteins suggest that FKBP52's binding to β-catenin involves the FKBP52 proline-rich loop and may act independently of Hsp90 binding. Interestingly, it appears that this synergistic effect is promoter-specific, suggesting that regulation by these proteins occurs at the transcriptional level. We have successfully abrogated the synergism of these proteins using the FKBP52-specific inhibitor MJC13, a small molecule developed for use in our laboratory. According to surface plasmon resonance studies, this molecule binds the androgen receptor at the BF-3 regulatory surface, the interaction surface for FKBP52 regulation of receptor. According to recent findings, AR, Wnt, and Human Epidermal Growth Factor Receptor 2 signaling pathways are linked in molecular apocrine breast cancer progression. We therefore hypothesize that our findings could be relevant to breast cancer as well as prostate cancer. [ABSTRACT FROM AUTHOR]

Published
2012
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34. A global phylogeny of butterflies reveals their evolutionary history, ancestral hosts and biogeographic origins.

Author

Kawahara AY, Storer C, Carvalho APS, Plotkin DM, Condamine FL, Braga MP, Ellis EA, St Laurent RA, Li X, Barve V, Cai L, Earl C, Frandsen PB, Owens HL, Valencia-Montoya WA, Aduse-Poku K, Toussaint EFA, Dexter KM, Doleck T, Markee A, Messcher R, Nguyen YL, Badon JAT, Benítez HA, Braby MF, Buenavente PAC, Chan WP, Collins SC, Rabideau Childers RA, Dankowicz E, Eastwood R, Fric ZF, Gott RJ, Hall JPW, Hallwachs W, Hardy NB, Sipe RLH, Heath A, Hinolan JD, Homziak NT, Hsu YF, Inayoshi Y, Itliong MGA, Janzen DH, Kitching IJ, Kunte K, Lamas G, Landis MJ, Larsen EA, Larsen TB, Leong JV, Lukhtanov V, Maier CA, Martinez JI, Martins DJ, Maruyama K, Maunsell SC, Mega NO, Monastyrskii A, Morais ABB, Müller CJ, Naive MAK, Nielsen G, Padrón PS, Peggie D, Romanowski HP, Sáfián S, Saito M, Schröder S, Shirey V, Soltis D, Soltis P, Sourakov A, Talavera G, Vila R, Vlasanek P, Wang H, Warren AD, Willmott KR, Yago M, Jetz W, Jarzyna MA, Breinholt JW, Espeland M, Ries L, Guralnick RP, Pierce NE, and Lohman DJ

Subjects
Animals, Biological Evolution, Phylogeny, Butterflies genetics
Abstract

Butterflies are a diverse and charismatic insect group that are thought to have evolved with plants and dispersed throughout the world in response to key geological events. However, these hypotheses have not been extensively tested because a comprehensive phylogenetic framework and datasets for butterfly larval hosts and global distributions are lacking. We sequenced 391 genes from nearly 2,300 butterfly species, sampled from 90 countries and 28 specimen collections, to reconstruct a new phylogenomic tree of butterflies representing 92% of all genera. Our phylogeny has strong support for nearly all nodes and demonstrates that at least 36 butterfly tribes require reclassification. Divergence time analyses imply an origin ~100 million years ago for butterflies and indicate that all but one family were present before the K/Pg extinction event. We aggregated larval host datasets and global distribution records and found that butterflies are likely to have first fed on Fabaceae and originated in what is now the Americas. Soon after the Cretaceous Thermal Maximum, butterflies crossed Beringia and diversified in the Palaeotropics. Our results also reveal that most butterfly species are specialists that feed on only one larval host plant family. However, generalist butterflies that consume two or more plant families usually feed on closely related plants., (© 2023. The Author(s).)

Published
2023
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35. Potential determinants of low circulating glucagon-like peptide 2 concentrations in Zambian children with non-responsive stunting.

Author

Besa E, Tembo MJ, Mulenga C, Mweetwa M, Choudhry N, Chandwe K, Storer C, Head R, Amadi B, Haritunians T, McGovern D, Kwenda G, Peiris M, and Kelly P

Subjects
Child, Humans, Chromogranin A, Zambia, Genome-Wide Association Study, Glucagon-Like Peptide 2, Growth Disorders metabolism
Abstract

New Findings: What is the central question of this study? Non-responsive stunting is characterised by a progressive decline of circulating glucagon-like peptide 2: what are the possible causes of this decline? What is the main finding and its importance? In contrast with the established loss of Paneth and goblet cells in environmental enteropathy, there was no evidence of a parallel loss of enteroendocrine cells as seen by positive tissue staining for chromogranin A. Transcriptomic and genomic analyses showed evidence of genetic transcripts that could account for some of the variability seen in circulating glucagon-like peptide 2 values., Abstract: Nutrient sensing determines digestive and hormonal responses following nutrient ingestion. We have previously reported decreased levels of glucagon-like peptide 2 (GLP-2) in children with stunting. Here we demonstrate the presence of enteroendocrine cells in stunted children and explore potential pathways that may be involved in reduced circulating levels of GLP-2. At the time of performing diagnostic endoscopies for non-responsive stunted children, intestinal biopsies were collected for immunofluorescence staining of enteroendocrine cells and transcriptomic analysis. Circulating levels of GLP-2 were also measured and correlated with transcriptomic data. An exploratory genome-wide association study (GWAS) was conducted on DNA samples (n = 158) to assess genetic contribution to GLP-2 variability. Intestinal tissue sections collected from non-responsive stunted children stained positive for chromogranin A (88/89), alongside G-protein-coupled receptors G-protein receptor 119 (75/87), free fatty acid receptor 3 (76/89) and taste 1 receptor 1 (39/45). Transcriptomic analysis found three pathways correlated with circulating GLP-2: sugar metabolism, epithelial transport, and barrier function, which likely reflect downstream events following receptor-ligand interaction. GWAS analysis revealed potential genetic contributions to GLP-2 half-life and receptor binding. Enteroendocrine cell loss was not identified in stunted Zambian children as has been observed for goblet and Paneth cells. Transcriptomic analysis suggests that GLP-2 has pleiotrophic actions on the intestinal mucosa in malnutrition, but further work is needed to dissect pathways leading to perturbations in nutrient sensing., (© 2023 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published
2023
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36. Enterotoxigenic Escherichia coli heat-labile toxin drives enteropathic changes in small intestinal epithelia.

Author

Sheikh A, Tumala B, Vickers TJ, Martin JC, Rosa BA, Sabui S, Basu S, Simoes RD, Mitreva M, Storer C, Tyksen E, Head RD, Beatty W, Said HM, and Fleckenstein JM

Subjects
Mice, Animals, Enterotoxins genetics, Diarrhea, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Enterotoxigenic Escherichia coli genetics, Enterotoxigenic Escherichia coli metabolism, Escherichia coli Infections prevention & control, Malnutrition
Abstract

Enterotoxigenic E. coli (ETEC) produce heat-labile (LT) and/or heat-stable (ST) enterotoxins, and commonly cause diarrhea in resource-poor regions. ETEC have been linked repeatedly to sequelae in children including enteropathy, malnutrition, and growth impairment. Although cellular actions of ETEC enterotoxins leading to diarrhea are well-established, their contributions to sequelae remain unclear. LT increases cellular cAMP to activate protein kinase A (PKA) that phosphorylates ion channels driving intestinal export of salt and water resulting in diarrhea. As PKA also modulates transcription of many genes, we interrogated transcriptional profiles of LT-treated intestinal epithelia. Here we show that LT significantly alters intestinal epithelial gene expression directing biogenesis of the brush border, the major site for nutrient absorption, suppresses transcription factors HNF4 and SMAD4 critical to enterocyte differentiation, and profoundly disrupts microvillus architecture and essential nutrient transport. In addition, ETEC-challenged neonatal mice exhibit substantial brush border derangement that is prevented by maternal vaccination with LT. Finally, mice repeatedly challenged with toxigenic ETEC exhibit impaired growth recapitulating the multiplicative impact of recurring ETEC infections in children. These findings highlight impacts of ETEC enterotoxins beyond acute diarrheal illness and may inform approaches to prevent major sequelae of these common infections including malnutrition that impact millions of children., (© 2022. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published
2022
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37. Gene expression profiles compared in environmental and malnutrition enteropathy in Zambian children and adults.

Author

Kelly P, Amadi B, Chandwe K, Besa E, Zyambo K, Chama M, Tarr PI, Shaikh N, Ndao IM, Storer C, and Head R

Subjects
Adult, Child, Preschool, Female, Goblet Cells metabolism, Humans, Infant, Intestinal Diseases etiology, Intestinal Diseases metabolism, Male, Mucins genetics, Mucins metabolism, Zambia, Intestinal Diseases genetics, Malnutrition complications, Transcriptome
Abstract

Background: Environmental enteropathy (EE) contributes to growth failure in millions of children worldwide, but its relationship to clinical malnutrition has not been elucidated. We used RNA sequencing to compare duodenal biopsies from adults and children with EE, and from children with severe acute malnutrition (SAM), to define key features of these malnutrition-related enteropathies., Methods: RNA was extracted and sequenced from biopsies of children with SAM in hospital (n=27), children with non-responsive stunting in the community (n=30), and adults living in the same community (n=37) using an identical sequencing and analysis pipeline. Two biopsies each were profiled and differentially expressed genes (DEGs) were computed from the comparisons of the three groups. DEG lists from these comparisons were then subjected to analysis with CompBio software to assemble a holistic view of the biological landscape and IPA software to interrogate canonical pathways., Findings: Dysregulation was identified in goblet cell/mucin production and xenobiotic metabolism/detoxification for both cohorts of children, versus adults. Within the SAM cohort, substantially greater induction of immune response and barrier function, including NADPH oxidases was noted, concordant with broadly reduced expression of genes associated with the brush border and intestinal structure/transport/absorption. Interestingly, down regulation of genes associated with the hypothalamic-pituitary-adrenal axis was selectively observed within the cohort of children with stunting., Interpretation: Gene expression profiles in environmental enteropathy and severe acute malnutrition have similarities, but SAM has several distinct transcriptional features. The intestinal capacity to metabolise drugs and toxins in malnourished children requires further study., Funding: Bill & Melinda Gates Foundation (OPP1066118)., Competing Interests: Declaration of Competing Interest PIT is a consultant to, and holder of equity in MediBeacon Inc, which is developing novel technology to measure intestinal permeability in humans under a patent he partly owns. RDH and CS may receive royalty income based on the CompBio technology they developed, which was licensed by Washington University to PercayAI. All other authors declare no competing interests., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2021
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38. Western diet induces Paneth cell defects through microbiome alterations and farnesoid X receptor and type I interferon activation.

Author

Liu TC, Kern JT, Jain U, Sonnek NM, Xiong S, Simpson KF, VanDussen KL, Winkler ES, Haritunians T, Malique A, Lu Q, Sasaki Y, Storer C, Diamond MS, Head RD, McGovern DPB, and Stappenbeck TS

Subjects
Animals, Bile Acids and Salts metabolism, Cells, Cultured, Diet, High-Fat adverse effects, Disease Models, Animal, Gene Expression Profiling, Humans, Immunity, Innate drug effects, Intestinal Mucosa metabolism, Mice, Mice, Inbred C57BL, Signal Transduction, Diet, Western adverse effects, Gastrointestinal Microbiome drug effects, Interferon Type I metabolism, Obesity metabolism, Paneth Cells drug effects, Paneth Cells metabolism, Receptors, Cytoplasmic and Nuclear metabolism
Abstract

Intestinal Paneth cells modulate innate immunity and infection. In Crohn's disease, genetic mutations together with environmental triggers can disable Paneth cell function. Here, we find that a western diet (WD) similarly leads to Paneth cell dysfunction through mechanisms dependent on the microbiome and farnesoid X receptor (FXR) and type I interferon (IFN) signaling. Analysis of multiple human cohorts suggests that obesity is associated with Paneth cell dysfunction. In mouse models, consumption of a WD for as little as 4 weeks led to Paneth cell dysfunction. WD consumption in conjunction with Clostridium spp. increased the secondary bile acid deoxycholic acid levels in the ileum, which in turn inhibited Paneth cell function. The process required excess signaling of both FXR and IFN within intestinal epithelial cells. Our findings provide a mechanistic link between poor diet and inhibition of gut innate immunity and uncover an effect of FXR activation in gut inflammation., Competing Interests: Declaration of interests T.-C.L. received research funding from Pfizer on Paneth cell phenotype in IBD, and advises Interline. R.D.H. and C.S. may receive royalty income based on the CompBio technology developed by R.D.H. and licensed by Washington University to PercayAI. T. Stappenbeck advises Janssen, Boehringer Ingelheim (Ingelheim, Germany), Kallyope, Takada, and Roche. All other authors declare no relevant competing interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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39. Is Sexual Conflict a Driver of Speciation? A Case Study With a Tribe of Brush-footed Butterflies.

Author

Carvalho APS, St Laurent RA, Toussaint EFA, Storer C, Dexter KM, Aduse-Poku K, and Kawahara AY

Subjects
Animals, Biological Evolution, Genetic Speciation, Phenotype, Phylogeny, Reproduction, Butterflies genetics
Abstract

Understanding the evolutionary mechanisms governing the uneven distribution of species richness across the tree of life is a great challenge in biology. Scientists have long argued that sexual conflict is a key driver of speciation. This hypothesis, however, has been highly debated in light of empirical evidence. Recent advances in the study of macroevolution make it possible to test this hypothesis with more data and increased accuracy. In the present study, we use phylogenomics combined with four different diversification rate analytical approaches to test whether sexual conflict is a driver of speciation in brush-footed butterflies of the tribe Acraeini. The presence of a sphragis, an external mating plug found in most species among Acraeini, was used as a proxy for sexual conflict. Diversification analyses statistically rejected the hypothesis that sexual conflict is associated with shifts in diversification rates in Acraeini. This result contrasts with earlier studies and suggests that the underlying mechanisms driving diversification are more complex than previously considered. In the case of butterflies, natural history traits acting in concert with abiotic factors possibly play a stronger role in triggering speciation than does sexual conflict. [Acraeini butterflies; arms race; exon capture phylogenomics; Lepidoptera macroevolution; sexual selection; sphragis.]., (© The Author(s) 2020. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2021
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40. Phylogenomics reveals the evolutionary timing and pattern of butterflies and moths.

Author

Kawahara AY, Plotkin D, Espeland M, Meusemann K, Toussaint EFA, Donath A, Gimnich F, Frandsen PB, Zwick A, Dos Reis M, Barber JR, Peters RS, Liu S, Zhou X, Mayer C, Podsiadlowski L, Storer C, Yack JE, Misof B, and Breinholt JW

Subjects
Animals, Butterflies classification, Butterflies physiology, Moths classification, Moths physiology, Butterflies genetics, Evolution, Molecular, Moths genetics, Phylogeny
Abstract

Butterflies and moths (Lepidoptera) are one of the major superradiations of insects, comprising nearly 160,000 described extant species. As herbivores, pollinators, and prey, Lepidoptera play a fundamental role in almost every terrestrial ecosystem. Lepidoptera are also indicators of environmental change and serve as models for research on mimicry and genetics. They have been central to the development of coevolutionary hypotheses, such as butterflies with flowering plants and moths' evolutionary arms race with echolocating bats. However, these hypotheses have not been rigorously tested, because a robust lepidopteran phylogeny and timing of evolutionary novelties are lacking. To address these issues, we inferred a comprehensive phylogeny of Lepidoptera, using the largest dataset assembled for the order (2,098 orthologous protein-coding genes from transcriptomes of 186 species, representing nearly all superfamilies), and dated it with carefully evaluated synapomorphy-based fossils. The oldest members of the Lepidoptera crown group appeared in the Late Carboniferous (∼300 Ma) and fed on nonvascular land plants. Lepidoptera evolved the tube-like proboscis in the Middle Triassic (∼241 Ma), which allowed them to acquire nectar from flowering plants. This morphological innovation, along with other traits, likely promoted the extraordinary diversification of superfamily-level lepidopteran crown groups. The ancestor of butterflies was likely nocturnal, and our results indicate that butterflies became day-flying in the Late Cretaceous (∼98 Ma). Moth hearing organs arose multiple times before the evolutionary arms race between moths and bats, perhaps initially detecting a wide range of sound frequencies before being co-opted to specifically detect bat sonar. Our study provides an essential framework for future comparative studies on butterfly and moth evolution., Competing Interests: The authors declare no competing interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published
2019
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41. Using Noninvasive Genetic Sampling to Survey Rare Butterfly Populations.

Author

Storer C, Daniels J, Xiao L, and Rossetti K

Abstract

Advances in nondestructive genetic sampling techniques continue to offer new opportunities for studying organisms, particularly those of conservation concern where more traditional invasive sampling methods are often not available. As part of a proof-of-concept, we investigated the effectiveness of using the chorion from residual butterfly egg debris as a source of viable genetic material for analysis. Laboratory material from a captive breeding population of the federally endangered Miami blue butterfly ( Cyclargus thomasi bethunebakeri ) was used to test efficacy and refine the methodology. The resulting best practices were subsequently evaluated using field-collected material from extant north Florida populations of the at-risk frosted elfin butterfly ( Callophyrs irus ). Our results demonstrated that it is possible to extract DNA of sufficiently high quantity and quality for successful gene sequencing. We additionally describe a simple, low-cost, and reliable method of collecting and storing egg debris samples that can be consistently adopted for field or laboratory work as well as deployed with projects that have a larger geographic scope and/or involve citizen scientists. Potential limitations related to field sample collection are discussed as well as needs for future evaluation.

Published
2019
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42. Transcriptomic analysis of enteropathy in Zambian children with severe acute malnutrition.

Author

Chama M, Amadi BC, Chandwe K, Zyambo K, Besa E, Shaikh N, Ndao IM, Tarr PI, Storer C, Head R, and Kelly P

Subjects
Biopsy, Child, Child, Preschool, Diarrhea epidemiology, Diarrhea pathology, Female, Gene Expression Profiling, Humans, Infant, Intestinal Diseases epidemiology, Intestinal Diseases pathology, Intestinal Mucosa metabolism, Male, Sequence Analysis, RNA, Severe Acute Malnutrition epidemiology, Severe Acute Malnutrition pathology, Zambia epidemiology, Diarrhea genetics, Intestinal Diseases genetics, Severe Acute Malnutrition genetics, Transcriptome genetics
Abstract

Background: Children with severe acute malnutrition (SAM), with or without diarrhoea, often have enteropathy, but there are few molecular data to guide development of new therapies. We set out to determine whether SAM enteropathy is characterised by specific transcriptional changes which might improve understanding or help identify new treatments., Methods: We collected intestinal biopsies from children with SAM and persistent diarrhoea. mRNA was extracted from biopsies, sequenced, and subjected to a progressive set of complementary analytical approaches: NOIseq, Gene Set Enrichment Analysis (GSEA), and correlation analysis of phenotypic data with gene expression., Findings: Transcriptomic profiles were generated for biopsy sets from 27 children of both sexes, under 2 years of age, of whom one-third were HIV-infected. NOIseq analysis, constructed from phenotypic group extremes, revealed 66 differentially expressed genes (DEGs) out of 21,386 mapped to the reference genome. These DEGs include genes for mucins and mucus integrity, antimicrobial defence, nutrient absorption, C-X-C chemokines, proteases and anti-proteases. Phenotype - expression correlation analysis identified 1221 genes related to villus height, including increased cell cycling gene expression in more severe enteropathy. Amino acid transporters and ZIP zinc transporters were specifically increased in severe enteropathy, but transcripts for xenobiotic metabolising enzymes were reduced., Interpretation: Transcriptomic analysis of this rare collection of intestinal biopsies identified multiple novel elements of pathology, including specific alterations in nutrient transporters. Changes in xenobiotic metabolism in the gut may alter drug disposition. Both NOIseq and GSEA identified gene clusters similar to those differentially expressed in pediatric Crohn's disease but to a much lesser degree than those identified in coeliac disease. FUND: Bill & Melinda Gates Foundation OPP1066118. The funding agency had no role in study design, data collection, data analysis, interpretation, or writing of the report., (Copyright © 2019 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2019
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43. Virus discovery in all three major lineages of terrestrial arthropods highlights the diversity of single-stranded DNA viruses associated with invertebrates.

Author

Rosario K, Mettel KA, Benner BE, Johnson R, Scott C, Yusseff-Vanegas SZ, Baker CCM, Cassill DL, Storer C, Varsani A, and Breitbart M

Abstract

Viruses encoding a replication-associated protein (Rep) within a covalently closed, single-stranded (ss)DNA genome are among the smallest viruses known to infect eukaryotic organisms, including economically valuable agricultural crops and livestock. Although circular Rep-encoding ssDNA (CRESS DNA) viruses are a widespread group for which our knowledge is rapidly expanding, biased sampling toward vertebrates and land plants has limited our understanding of their diversity and evolution. Here, we screened terrestrial arthropods for CRESS DNA viruses and report the identification of 44 viral genomes and replicons associated with specimens representing all three major terrestrial arthropod lineages, namely Euchelicerata (spiders), Hexapoda (insects), and Myriapoda (millipedes). We identified virus genomes belonging to three established CRESS DNA viral families ( Circoviridae , Genomoviridae , and Smacoviridae ); however, over half of the arthropod-associated viral genomes are only distantly related to currently classified CRESS DNA viral sequences. Although members of viral and satellite families known to infect plants ( Geminiviridae , Nanoviridae , Alphasatellitidae ) were not identified in this study, these plant-infecting CRESS DNA viruses and replicons are transmitted by hemipterans. Therefore, members from six out of the seven established CRESS DNA viral families circulate among arthropods. Furthermore, a phylogenetic analysis of Reps, including endogenous viral sequences, reported to date from a wide array of organisms revealed that most of the known CRESS DNA viral diversity circulates among invertebrates. Our results highlight the vast and unexplored diversity of CRESS DNA viruses among invertebrates and parallel findings from RNA viral discovery efforts in undersampled taxa., Competing Interests: Mya Breitbart is an Academic Editor for PeerJ.

Published
2018
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44. Phylogenetics of moth-like butterflies (Papilionoidea: Hedylidae) based on a new 13-locus target capture probe set.

Author

Kawahara AY, Breinholt JW, Espeland M, Storer C, Plotkin D, Dexter KM, Toussaint EFA, St Laurent RA, Brehm G, Vargas S, Forero D, Pierce NE, and Lohman DJ

Subjects
Animals, Base Sequence, Likelihood Functions, Moths genetics, Butterflies classification, DNA Probes genetics, Genetic Loci, Moths classification, Phylogeny
Abstract

The Neotropical moth-like butterflies (Hedylidae) are perhaps the most unusual butterfly family. In addition to being species-poor, this family is predominantly nocturnal and has anti-bat ultrasound hearing organs. Evolutionary relationships among the 36 described species are largely unexplored. A new, target capture, anchored hybrid enrichment probe set ('BUTTERFLY2.0') was developed to infer relationships of hedylids and some of their butterfly relatives. The probe set includes 13 genes that have historically been used in butterfly phylogenetics. Our dataset comprised of up to 10,898 aligned base pairs from 22 hedylid species and 19 outgroups. Eleven of the thirteen loci were successfully captured from all samples, and the remaining loci were captured from ≥94% of samples. The inferred phylogeny was consistent with recent molecular studies by placing Hedylidae sister to Hesperiidae, and the tree had robust support for 80% of nodes. Our results are also consistent with morphological studies, with Macrosoma tipulata as the sister species to all remaining hedylids, followed by M. semiermis sister to the remaining species in the genus. We tested the hypothesis that nocturnality evolved once from diurnality in Hedylidae, and demonstrate that the ancestral condition was likely diurnal, with a shift to nocturnality early in the diversification of this family. The BUTTERFLY2.0 probe set includes standard butterfly phylogenetics markers, captures sequences from decades-old museum specimens, and is a cost-effective technique to infer phylogenetic relationships of the butterfly tree of life., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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45. Cryptic genetic variation in an inbreeding and cosmopolitan pest, Xylosandrus crassiusculus , revealed using ddRADseq.

Author

Storer C, Payton A, McDaniel S, Jordal B, and Hulcr J

Abstract

Each year new exotic species are transported across the world through global commerce, causing considerable economic and ecological damage. An important component of managing invasion pathways is to identify source populations. Some of the most widespread exotic species are haplodiploid ambrosia beetles. The ability to mate with siblings (inbreed) and their transportable food source (symbiotic fungus) have enabled them to colonize most of the world and become pests of plant nurseries, lumber, and forests. One of the fastest spreading ambrosia beetles is Xylosandrus crassiusculus . In order to discover the source populations of this globally invasive species, track its movement around the world, and test biogeographical scenarios, we combined restriction site-associated DNA sequencing (RADseq) with comprehensive sampling across the species native and introduced range. From 1,365 genotyped SNP loci across 198 individuals, we determined that in its native range, X. crassiusculus is comprised of a population in Southeast Asia that includes mainland China, Thailand, and Taiwan, and a second island population in Japan. North America and Central America were colonized from the island populations, while Africa and Oceania were colonized from the mainland Asia, and Hawaii was colonized by both populations. Populations of X. crassiusculus in North America were genetically diverse and highly structured, suggesting (1) numerous, repeated introductions; (2) introduction of a large founding population; or (3) both scenarios with higher than expected outcrossing. X. crassiusculus , other wood-boring insects, and indeed many other pests with unusual genetic structure continue to spread around the world. We show that contemporary genetic methods offer a powerful tool for understanding and preventing pathways of future biosecurity threats.

Published
2017
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46. Critical role for apoptosis signal-regulating kinase 1 in the development of inflammatory K/BxN serum-induced arthritis.

Author

Mnich SJ, Blanner PM, Hu LG, Shaffer AF, Happa FA, O'Neil S, Ukairo O, Weiss D, Welsh E, Storer C, Mbalaviele G, Ichijo H, Monahan JB, Hardy MM, and Eda H

Subjects
Animals, Arthritis pathology, Arthritis, Rheumatoid metabolism, Cells, Cultured, Dinoprostone genetics, Dinoprostone metabolism, Female, Fibroblasts cytology, Fibroblasts drug effects, Fibroblasts metabolism, Gene Expression Profiling, Humans, Interleukin-6, MAP Kinase Kinase Kinase 5 genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Pyrazoles toxicity, Pyrimidines toxicity, Tumor Necrosis Factor-alpha pharmacology, Apoptosis physiology, Arthritis chemically induced, MAP Kinase Kinase Kinase 5 metabolism
Abstract

In this report, we show that apoptosis signal-regulating kinase 1(-/-) (ASK1 KO) mice were resistant to inflammatory arthritis induced in the K/BxN serum transfer model of rheumatoid arthritis (RA). The p38 inhibitor, SD-0006 was administered to wild type (WT) mice as a comparator. Both ASK1 KO and p38 inhibition resulted in marked attenuation of edema, cartilage damage, bone resorption, and general inflammatory responses. Transcriptional profiling of mRNA prepared from paw tissue demonstrated that the production of many proinflammatory genes including cytokines, chemokines, and extracellular matrix degradative enzymes were maintained at basal levels by either ASK1 KO or prophylactic p38 MAPK inhibition. In the mouse whole blood (MWB) assay, tumor necrosis factor-α (TNF-α)-induced KC and CCL2 levels and also LPS-induced interleukin-6 (IL-6), CCL2, and KC levels in MWB from ASK1 KO were significantly lower than those from WT. Furthermore, both p38 and JNK were activated by TNF-α in human synovial fibroblasts isolated from RA patients (RASF). SD-0006 or SP600125, a JNK inhibitor, partially blocked the elevation of IL-6 production in RASF following stimulation with TNF-α. In contrast, dual inhibition with both p38/JNK inhibitors almost completely abolished TNF-α-induced IL-6 production from these cells. Ablation of ASK1 expression in RASF using siRNA for ASK1 resulted in inhibition of TNF-α-induced IL-6 and PGE(2) production. This study is the first to suggest that ASK1 is critical for the development of RA and that ASK1 may be involved in the production of proinflammatory mediators in response to TNF-α stimulation in the RA joint., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published
2010
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47. PyK2 and FAK connections to p190Rho guanine nucleotide exchange factor regulate RhoA activity, focal adhesion formation, and cell motility.

Author

Lim Y, Lim ST, Tomar A, Gardel M, Bernard-Trifilo JA, Chen XL, Uryu SA, Canete-Soler R, Zhai J, Lin H, Schlaepfer WW, Nalbant P, Bokoch G, Ilic D, Waterman-Storer C, and Schlaepfer DD

Subjects
Animals, Cell Proliferation, Focal Adhesion Kinase 1 genetics, Focal Adhesion Kinase 2 genetics, Gene Expression Regulation, Mice, Paxillin metabolism, Phosphorylation, Tyrosine metabolism, ras-GRF1 genetics, Cell Movement physiology, Focal Adhesion Kinase 1 metabolism, Focal Adhesion Kinase 2 metabolism, Focal Adhesions physiology, ras-GRF1 metabolism, rhoA GTP-Binding Protein metabolism
Abstract

Integrin binding to matrix proteins such as fibronectin (FN) leads to formation of focal adhesion (FA) cellular contact sites that regulate migration. RhoA GTPases facilitate FA formation, yet FA-associated RhoA-specific guanine nucleotide exchange factors (GEFs) remain unknown. Here, we show that proline-rich kinase-2 (Pyk2) levels increase upon loss of focal adhesion kinase (FAK) in mouse embryonic fibroblasts (MEFs). Additionally, we demonstrate that Pyk2 facilitates deregulated RhoA activation, elevated FA formation, and enhanced cell proliferation by promoting p190RhoGEF expression. In normal MEFs, p190RhoGEF knockdown inhibits FN-associated RhoA activation, FA formation, and cell migration. Knockdown of p190RhoGEF-related GEFH1 does not affect FA formation in FAK(-/-) or normal MEFs. p190RhoGEF overexpression enhances RhoA activation and FA formation in MEFs dependent on FAK binding and associated with p190RhoGEF FA recruitment and tyrosine phosphorylation. These studies elucidate a compensatory function for Pyk2 upon FAK loss and identify the FAK-p190RhoGEF complex as an important integrin-proximal regulator of FA formation during FN-stimulated cell motility.

Published
2008
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48. Cofilin activity downstream of Pak1 regulates cell protrusion efficiency by organizing lamellipodium and lamella actin networks.

Author

Delorme V, Machacek M, DerMardirossian C, Anderson KL, Wittmann T, Hanein D, Waterman-Storer C, Danuser G, and Bokoch GM

Subjects
Cell Line, Cell Movement, Fluorescent Antibody Technique, Humans, Lim Kinases metabolism, Signal Transduction, rac1 GTP-Binding Protein metabolism, Actin Depolymerizing Factors physiology, Actins physiology, Epithelial Cells physiology, Microfilament Proteins physiology, Pseudopodia physiology, p21-Activated Kinases physiology
Abstract

Protrusion of the leading edge of migrating epithelial cells requires precise regulation of two actin filament (F-actin) networks, the lamellipodium and the lamella. Cofilin is a downstream target of Rho GTPase signaling that promotes F-actin cycling through its F-actin-nucleating, -severing, and -depolymerizing activity. However, its function in modulating lamellipodium and lamella dynamics, and the implications of these dynamics for protrusion efficiency, has been unclear. Using quantitative fluorescent speckle microscopy, immunofluorescence, and electron microscopy, we establish that the Rac1/Pak1/LIMK1 signaling pathway controls cofilin activity within the lamellipodium. Enhancement of cofilin activity accelerates F-actin turnover and retrograde flow, resulting in widening of the lamellipodium. This is accompanied by increased spatial overlap of the lamellipodium and lamella networks and reduced cell-edge protrusion efficiency. We propose that cofilin functions as a regulator of cell protrusion by modulating the spatial interaction of the lamellipodium and lamella in response to upstream signals.

Published
2007
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49. Periodic patterns of actin turnover in lamellipodia and lamellae of migrating epithelial cells analyzed by quantitative Fluorescent Speckle Microscopy.

Author

Ponti A, Matov A, Adams M, Gupton S, Waterman-Storer CM, and Danuser G

Subjects
Actin-Related Protein 2 metabolism, Actin-Related Protein 3 metabolism, Actins metabolism, Algorithms, Animals, Biophysics methods, Bridged Bicyclo Compounds, Heterocyclic chemistry, Cell Line, Cell Movement, Cells, Cultured, Depsipeptides chemistry, Image Processing, Computer-Assisted, Kinetics, Microscopy, Confocal, Models, Molecular, Models, Statistical, Polymers chemistry, Potoroidae, Pseudopodia metabolism, Thiazoles chemistry, Thiazolidines, Time Factors, Actins chemistry, Epithelial Cells cytology, Microscopy, Fluorescence methods, Pseudopodia chemistry
Abstract

We measured actin turnover in lamellipodia and lamellae of migrating cells, using quantitative Fluorescent Speckle Microscopy. Lamellae disassembled at low rates from the front to the back. However, the dominant feature in their turnover was a spatially random pattern of periodic polymerization and depolymerization moving with the retrograde flow. Power spectra contained frequencies between 0.5 and 1 cycle/min. The spectra remained unchanged when applying Latrunculin A and Jasplakinolide in low doses, except that additional frequencies occurred beyond 1 cycle/min. Whereas Latrunculin did not change the rate of mean disassembly, Jasplakinolide halted it completely, indicating that the steady state and the dynamics of actin turnover are differentially affected by pharmacological agents. Lamellipodia assembled in recurring bursts at the leading edge and disassembled approximately 2.5 microm behind. Events of polymerization correlated spatially and temporally with transient formation of Arp2/3 clusters. In lamellae, Arp2/3 accumulation and polymerization correlated only spatially, suggesting an Arp2/3-independent mechanism for filament nucleation. To acquire these data we had to enhance the resolution of quantitative Fluorescent Speckle Microscopy to the submicron level. Several algorithmic advances in speckle image processing are described enabling the analysis of kinetic and kinematic activities of polymer networks at the level of single speckles.

Published
2005
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50. Recovery, visualization, and analysis of actin and tubulin polymer flow in live cells: a fluorescent speckle microscopy study.

Author

Vallotton P, Ponti A, Waterman-Storer CM, Salmon ED, and Danuser G

Subjects
Actins ultrastructure, Animals, Cytoskeleton ultrastructure, Microfluidics methods, Motion, Pattern Recognition, Automated, Protein Binding, Respiratory Mucosa cytology, Respiratory Mucosa metabolism, Salamandridae, Tubulin ultrastructure, Actins metabolism, Algorithms, Cytoskeleton metabolism, Image Interpretation, Computer-Assisted methods, Microscopy, Fluorescence methods, Protein Transport physiology, Tubulin metabolism
Abstract

Fluorescent speckle microscopy (FSM) is becoming the technique of choice for analyzing in vivo the dynamics of polymer assemblies, such as the cytoskeleton. The massive amount of data produced by this method calls for computational approaches to recover the quantities of interest; namely, the polymerization and depolymerization activities and the motions undergone by the cytoskeleton over time. Attempts toward this goal have been hampered by the limited signal-to-noise ratio of typical FSM data, by the constant appearance and disappearance of speckles due to polymer turnover, and by the presence of flow singularities characteristic of many cytoskeletal polymer assemblies. To deal with these problems, we present a particle-based method for tracking fluorescent speckles in time-lapse FSM image series, based on ideas from operational research and graph theory. Our software delivers the displacements of thousands of speckles between consecutive frames, taking into account that speckles may appear and disappear. In this article we exploit this information to recover the speckle flow field. First, the software is tested on synthetic data to validate our methods. We then apply it to mapping filamentous actin retrograde flow at the front edge of migrating newt lung epithelial cells. Our results confirm findings from previously published kymograph analyses and manual tracking of such FSM data and illustrate the power of automated tracking for generating complete and quantitative flow measurements. Third, we analyze microtubule poleward flux in mitotic metaphase spindles assembled in Xenopus egg extracts, bringing new insight into the dynamics of microtubule assemblies in this system.

Published
2003
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