Your search keyword '"Christopher J. Lowe"' showing total 109 results

1. Finding Navigable Paths through Tidal Flats with Synthetic Aperture Radar

Author

Ruaridh A. Clark, Ciara N. McGrath, Astrid A. Werkmeister, Christopher J. Lowe, Gwilym Gibbons, and Malcolm Macdonald

Subjects

synthetic aperture radar, tidal channel, tidal flat, ship routing, breadth-first search, Science

Abstract

Tidal flats are some of the most dynamic coastal environments in the world, where traditional coastal mapping and monitoring provide insufficient temporal resolution to reliably map channels and sand flats. Satellite-based Synthetic Aperture Radar (SAR) enables regular cloud-penetrating detection of water flowing through channels within the tidal flats, referred to as tidal channels. This paper presents a method for detecting a path through tidal channels, using satellite imagery, that supports our understanding and safe exploitation of this valuable coastal environment. This approach is the first proposed to identify navigable paths in all conditions, with SAR images susceptible to variation due to weather and tidal conditions. Tidal channels are known to vary in SAR presentation, and we find that tidal flat presentation is also influenced by conditions. The most influential factor is the wind, with high winds causing an inversion in how both tidal flats and tidal channels present in SAR images. The presented method for the automatic detection of tidal channels accounts for this variability by using previous channel paths as a reference to reliably correct imagery and detect the latest path. The final algorithm produces paths with minor errors in 17.6% of images; the error rate increases to 71.7%, with an almost tenfold increase in errors, when the SAR image and paths are not adjusted to account for conditions. This capability has been used to support the Nith Inshore Rescue in attending call-outs from their base in Glencaple, UK, while the insights from monitoring tidal channels for a year demonstrate how periods of high river flow preceded major changes in the channel path.

Published

2024

2. Comparisons of cell proliferation and cell death from tornaria larva to juvenile worm in the hemichordate Schizocardium californicum

Author

Paul Bump, Margarita Khariton, Clover Stubbert, Nicole E. Moyen, Jia Yan, Bo Wang, and Christopher J. Lowe

Subjects

Metamorphosis, Hemichordate, Tornaria, Cell proliferation, Cell death, Evolution, QH359-425

Abstract

Abstract Background There are a wide range of developmental strategies in animal phyla, but most insights into adult body plan formation come from direct-developing species. For indirect-developing species, there are distinct larval and adult body plans that are linked together by metamorphosis. Some outstanding questions in the development of indirect-developing organisms include the extent to which larval tissue undergoes cell death during the process of metamorphosis and when and where the tissue that will give rise to the adult originates. How do the processes of cell division and cell death redesign the body plans of indirect developers? In this study, we present patterns of cell proliferation and cell death during larval body plan development, metamorphosis, and adult body plan formation, in the hemichordate Schizocardium californium (Cameron and Perez in Zootaxa 3569:79–88, 2012) to answer these questions. Results We identified distinct patterns of cell proliferation between larval and adult body plan formation of S. californicum. We found that some adult tissues proliferate during the late larval phase prior to the start of overt metamorphosis. In addition, using an irradiation and transcriptomic approach, we describe a genetic signature of proliferative cells that is shared across the life history states, as well as markers that are unique to larval or juvenile states. Finally, we observed that cell death is minimal in larval stages but begins with the onset of metamorphosis. Conclusions Cell proliferation during the development of S. californicum has distinct patterns in the formation of larval and adult body plans. However, cell death is very limited in larvae and begins during the onset of metamorphosis and into early juvenile development in specific domains. The populations of cells that proliferated and gave rise to the larvae and juveniles have a genetic signature that suggested a heterogeneous pool of proliferative progenitors, rather than a set-aside population of pluripotent cells. Taken together, we propose that the gradual morphological transformation of S. californicum is mirrored at the cellular level and may be more representative of the development strategies that characterize metamorphosis in many metazoan animals.

Published

2022

3. Testing specificity and sensitivity of wastewater-based epidemiology for detecting SARS-CoV-2 in four communities on Vancouver Island, Canada

Author

Nadia Zeina Masri, Kiffer George Card, Emmanuelle A. Caws, Alana Babcock, Ryan Powell, Christopher J. Lowe, Shelley Donovan, Shelley Norum, Shirley Lyons, Sean De Pol, Lareina Kostenchuk, Caetano Dorea, Nathan J. Lachowsky, Stephanie M. Willerth, Thomas M. Fyles, and Heather L. Buckley

Subjects

qPCR, Sensitivity, Specificity, Wastewater-based epidemiology, Wastewater surveillance, SARS-CoV-2, Environmental sciences, GE1-350

Abstract

We report wastewater surveillance of the spread of SARS-CoV-2 based upon 24-h composite influent samples taken weekly from four wastewater treatment plants (WWTP) on Vancouver Island, BC, Canada between January 3, 2021 and July 10, 2021. Samples were analyzed by reverse transcription quantitative polymerase chain reaction targeting the N1 and N2 gene fragments of SARS-CoV-2 and a region of the replication associate protein of the pepper mottle mosaic virus (PMMoV) serving as endemic control. Only a small proportion of samples had quantifiable levels of N1 or N2. Overall case rates are weakly correlated with the concentration (gene copies/L) and with the flux of viral material influent to the WWTP (gene copies/day); the latter accounts for influent flow variations. Poisson multimodal rank correlation accounts for differences between the four WWTP and shows a significant correlation with a significant positive intercept. Receiver operator characteristics (ROC) analysis confirms a cut-off of cases based on amplified/not-amplified experimental data. At the optimal cut point of 19 (N1) or 17 (N2) cases/week/100,000 the sensitivity and specificity is about 75% for N1 and 67% for N2.

Published

2022

4. Alternative Chemistries for Free Radical-Initiated Targeting and Immobilization

Author

Emily T. DiMartini, Christopher J. Lowe, and David I. Shreiber

Subjects

free radicals, stimuli-responsive drug delivery, biopolymers, reactive oxygen species, side effects, Biotechnology, TP248.13-248.65, Medicine (General), R5-920

Abstract

Stimuli-responsive biomaterials are an emerging strategy that leverage common pathophysiological triggers to target drug delivery to limit or avoid toxic side effects. Native free radicals, such as reactive oxygen species (ROS), are widely upregulated in many pathological states. We have previously demonstrated that native ROS are capable of crosslinking and immobilizing acrylated polyethylene glycol diacrylate (PEGDA) networks and coupled payloads in tissue mimics, providing evidence for a potential targeting mechanism. To build on these promising results, we evaluated PEG dialkenes and dithiols as alternative polymer chemistries for targeting. The reactivity, toxicity, crosslinking kinetics, and immobilization potential of PEG dialkenes and dithiols were characterized. Both the alkene and thiol chemistries crosslinked in the presence of ROS, generating high molecular weight polymer networks that immobilized fluorescent payloads in tissue mimics. Thiols were especially reactive and even reacted with acrylates in the absence of free radicals, and this motivated us to explore a two-phase targeting approach. Delivering thiolated payloads in a second phase, after the initial polymer net formation, allowed greater control over the payload dosing and timing. Two-phase delivery combined with a library of radical-sensitive chemistries can enhance the versatility and flexibility of this free radical-initiated platform delivery system.

Published

2023

5. The development and metamorphosis of the indirect developing acorn worm Schizocardium californicum (Enteropneusta: Spengelidae)

Author

Paul Gonzalez, Jeffrey Z. Jiang, and Christopher J. Lowe

Subjects

Enteropneusta, Hemichordata, Indirect development, Metamorphosis, Planktotrophy, Schizocardium californicum, Zoology, QL1-991

Abstract

Abstract Background Enteropneusts are benthic marine invertebrates that belong to the deuterostome phylum Hemichordata. The two main clades of enteropneusts are defined by differences in early life history strategies. In the Spengelidae and Ptychoderidae, development is indirect via a planktotrophic tornaria larva. In contrast, development in the Harrimanidae is direct without an intervening larval life history stage. Most molecular studies in the development and evolution of the enteropneust adult body plan have been carried out in the harrimanid Saccoglossus kowalevskii. In order to compare these two developmental strategies, we have selected the spengelid enteropneust Schizocardium californicum as a suitable indirect developing species for molecular developmental studies. Here we describe the methods for adult collecting, spawning and larval rearing in Schizocardium californicum, and describe embryogenesis, larval development, and metamorphosis, using light microscopy, immunocytochemistry and confocal microscopy. Results Adult reproductive individuals can be collected intertidally and almost year-round. Spawning can be triggered by heat shock and large numbers of larvae can be reared through metamorphosis under laboratory conditions. Gastrulation begins at 17 h post-fertilization (hpf) and embryos hatch at 26 hpf as ciliated gastrulae. At 3 days post-fertilization (dpf), the tornaria has a circumoral ciliary band, mouth, tripartite digestive tract, protocoel, larval muscles and a simple serotonergic nervous system. The telotroch develops at 5 dpf. In the course of 60 days, the serotonergic nervous system becomes more elaborate, the posterior coeloms develop, and the length of the circumoral ciliary band increases. At the end of the larval stage, larval muscles disappear, gill slits form, and adult muscles develop. Metamorphosis occurs spontaneously when the larva reaches its maximal size (ca. 3 mm), and involves loss and reorganization of larval structures (muscles, nervous system, digestive tract), as well as development of adult structures (adult muscles, tripartite body organization). Conclusions This study will enable future research in S. californicum to address long standing questions related to the evolution of axial patterning mechanisms, germ layer induction, neurogenesis and neural patterning, the mechanisms of metamorphosis, the relationships between larval and adult body plans, and the evolution of metazoan larval forms.

Published

2018

6. Pharmaceuticals and Personal Care Products in Municipal Wastewater and the Marine Receiving Environment Near Victoria Canada

Author

Jeremy Krogh, Shirley Lyons, and Christopher J. Lowe

Subjects

PPCP, sewage, sediment, benthic biota, Victoria BC, mussels, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Concerns over the fate of pharmaceuticals and personal care products (PPCP) within the environment have been growing with the advent of more precise analytical methods. The discharge of municipal wastewater has been identified as a significant source of these contaminants, particularly where wastewater treatment is minimal. Here we present results from a comprehensive monitoring regime located around Victoria, BC, Canada. Samples were collected between 2009 and 2016 from a variety of sources including marine water, sediment and biota adjacent to two major untreated sewage outfalls, as well as the sewage itself. PPCP concentrations within the untreated sewage were high, and the sediment surrounding the outfalls showed corresponding contamination. However, this contamination dropped quickly with distance from the outfall such that by 800 m distance most PPCPs were below detection limits. Tissue samples of resident Northern Horse mussels (Modiolus modiolus) collected adjacent to one of the major sewage outfalls showed high single sample concentrations of the antimicrobial triclosan (317 ng g−1 dry weight), the antibiotic ciprofloxacin (176 ng g−1 dry weight), as well as the antidepressant sertraline (84.1 ng g−1 dry weight). Reference stations from around the region showed very low concentrations of contamination with almost all PPCP concentrations being below detection limits. Within the sewage, concentrations were largely stable overtime, with the exception of triclosan and triclocarban which both showed declines over the study period.

Published

2017

7. Rethinking competence in marine life cycles: ontogenetic changes in the settlement response of sand dollar larvae exposed to turbulence

Author

Jason Hodin, Matthew C. Ferner, Gabriel Ng, Christopher J. Lowe, and Brian Gaylord

Subjects

metamorphosis, echinoidea, hydrodynamics, shear forces, environmental cues, recruitment, Science

Abstract

Complex life cycles have evolved independently numerous times in marine animals as well as in disparate algae. Such life histories typically involve a dispersive immature stage followed by settlement and metamorphosis to an adult stage on the sea floor. One commonality among animals exhibiting transitions of this type is that their larvae pass through a ‘precompetent’ period in which they do not respond to localized settlement cues, before entering a ‘competent’ period, during which cues can induce settlement. Despite the widespread existence of these two phases, relatively little is known about how larvae transition between them. Moreover, recent studies have blurred the distinction between the phases by demonstrating that fluid turbulence can spark precocious activation of competence. Here, we further investigate this phenomenon by exploring how larval interactions with turbulence change across ontogeny, focusing on offspring of the sand dollar Dendraster excentricus (Eschscholtz). Our data indicate that larvae exhibit increased responsiveness to turbulence as they get older. We also demonstrate a likely cost to precocious competence: the resulting juveniles are smaller. Based upon these findings, we outline a new, testable conception of competence that has the potential to reshape our understanding of larval dispersal and connectivity among marine populations.

Published

2015

8. Induced Immune Reaction in the Acorn Worm, Saccoglossus kowalevskii, Informs the Evolution of Antiviral Immunity

Author

Michael G Tassia, Haley A Hallowell, Damien S Waits, Ryan C Range, Christopher J Lowe, Rita M Graze, Elizabeth Hiltbold Schwartz, and Kenneth M Halanych

Subjects

Genetics, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Evolutionary perspectives on the deployment of immune factors following infection have been shaped by studies on a limited number of biomedical model systems with a heavy emphasis on vertebrate species. Although their contributions to contemporary immunology cannot be understated, a broader phylogenetic perspective is needed to understand the evolution of immune systems across Metazoa. In our study, we leverage differential gene expression analyses to identify genes implicated in the antiviral immune response of the acorn worm hemichordate, Saccoglossus kowalevskii, and place them in the context of immunity evolution within deuterostomes—the animal clade composed of chordates, hemichordates, and echinoderms. Following acute exposure to the synthetic viral double-stranded RNA analog, poly(I:C), we show that S. kowalevskii responds by regulating the transcription of genes associated with canonical innate immunity signaling pathways (e.g., nuclear factor κB and interferon regulatory factor signaling) and metabolic processes (e.g., lipid metabolism), as well as many genes without clear evidence of orthology with those of model species. Aggregated across all experimental time point contrasts, we identify 423 genes that are differentially expressed in response to poly(I:C). We also identify 147 genes with altered temporal patterns of expression in response to immune challenge. By characterizing the molecular toolkit involved in hemichordate antiviral immunity, our findings provide vital evolutionary context for understanding the origins of immune systems within Deuterostomia.

Published

2023

9. Uptake of PCBs into sediment dwellers and trophic transfer in relation to sediment conditions in the Salish Sea

Author

Brenda J Burd, Christopher J Lowe, and Carmen Morales-Caselles

Subjects

Multidisciplinary

Abstract

We examined uptake of polychlorinated biphenyls (PCBs) into various marine sediment feeders relative to physical and geochemical factors and transfer to higher trophic levels. PCBs exceeding Canadian Council Ministers of the Environment Guidelines by 6–55× were found in industrialized harbours and some near-outfall sediments, indicating ongoing land input. Sediment PCBs were correlated with organic flux and content. Tissue PCBs were >10× sediment PCBs in all samples and highest in Victoria Harbour infauna, suggesting considerable uptake from these extremely contaminated, organically enriched, chronically disturbed sediments. Sediment PCBs were the primary predictor of tissue lipid PCBs followed by %fines. This results in generally higher tissue PCBs in more depositional regions. The lipid/sediment PCBs (uptake rate) declined with increasing sediment PCBs, acid volatile sulfides and benthos biomass turnover. PCB homologue composition did not change with uptake from sediments or at higher trophic levels, suggesting minimal metabolization in tissues. Trophic bio-magnification occurs since lipid PCBs were 2–100× higher in seal blubber than sediment feeders. PCBs were compared with polybrominated diphenyl ethers (PBDEs) for the same samples. PCBs were highest in industrialized harbours, whereas PBDEs were elevated in harbours but highest near wastewater discharges. This reflects differences in usage history, sediment dynamics, and affinities. PCBs appear to be more bio-accumulative and persistent at higher trophic levels than PBDEs.

Published

2022

10. Molecular characterization of nervous system organization in the hemichordateSaccoglossus kowalevskii

Author

José M. Andrade Lopéz, Ariel M. Pani, Mike Wu, John Gerhart, and Christopher J. Lowe

Abstract

Hemichordates are an important group for investigating the evolution of bilaterian nervous systems. As the closest chordate outgroup with a bilaterally symmetric adult body plan, hemichordates are particularly informative for exploring the origins of chordates. Despite the importance of hemichordate neuroanatomy for testing hypotheses on deuterostome and chordate evolution, adult hemichordate nervous systems have not been comprehensively described using molecular techniques, and classic histological descriptions disagree on basic aspects of nervous system organization. A molecular description of hemichordate nervous system organization is important for both anatomical comparisons across phyla and for attempts to understand how conserved gene regulatory programs for ectodermal patterning relate to morphological evolution in deep time. Here, we describe the basic organization of the adult hemichordateSaccoglossus kowalevskiinervous system using immunofluorescence,in situhybridization, and transgenic reporters to visualize neurons, neuropil, and key neuronal cell types. Consistent with previous descriptions, we found theS. kowalevskiinervous system consists of a pervasive nerve plexus that is concentrated in the anterior, along with nerve cords on both the dorsal and ventral sides. Neuronal cell types exhibited clear anteroposterior and dorsoventral regionalization in multiple areas of the body. We observed spatially demarcated expression patterns for many genes involved in synthesis or transport of neurotransmitters and neuropeptides but did not observe clear distinctions between putatively centralized and decentralized portions of the nervous system. In the trunk, there is a clear division of cell types between the dorsal and ventral cords suggesting differences in function. The plexus shows regionalized structure and is consistent with the proboscis base as a major site for information processing rather than the dorsal nerve cord. The absence of neural processes crossing the basement membrane into muscle and extensive axonal varicosities suggest that volumetric transmission may play an important role in neural function. These data now facilitate more informed neural comparisons between hemichordates and other groups and contribute to broader debates on the origins and evolution of bilaterian nervous systems.

Published

2023

11. Saccoglossus kowalevskii: Evo-devo insights from the mud

Author

Jessica, Gray, Jens H, Fritzenwanker, Doreen D, Cunningham, and Christopher J, Lowe

Subjects

Animals, Chordata, Biological Evolution, Phylogeny

Abstract

Hemichordates have long been recognized as a critical group for addressing hypotheses of chordate origins. Historically this was due to anatomical traits that resembled those of chordates, most strikingly the dorsolateral gill slits. As molecular data and phylogenetic analyses were found to support a close phylogenetic relationship between hemichordates and chordates within the deuterostomes, interest was revived in hemichordates. In particular, Saccoglossus kowalevskii has been developed as a molecular model to represent hemichordate developmental biology. Herein, we highlight the considerations when choosing a particular species to study and the challenges we encountered when developing S. kowalevskii. We discuss our findings and how method and tool development enabled them, and how we envision expanding our repertoire of molecular tools in the future. Establishing a new model organism comes with many obstacles-from identifying a reliable season to collect animals, to developing modern molecular techniques. The Saccoglossus research community has benefited greatly from the collaborations and teamwork established over the years. As a result, Saccoglossus is well positioned to contribute to a new century of evolutionary developmental (evo-devo) research.

Published

2022

12. Comparisons of cell proliferation and cell death across life histories in the hemichordate Schizocardium californicum

Author

Paul Bump, Margarita Khariton, Clover Stubbert, Nicole E. Moyen, Jia Yan, Bo Wang, and Christopher J. Lowe

Abstract

BackgroundThere are a wide range of developmental strategies in animal phyla, but most insights into adult body plan formation come from direct-developing species. For indirect-developing species, there are distinct larval and adult body plans that are linked together by metamorphosis. Some outstanding questions in indirect-developing organisms include the extent to which larval tissue undergoes cell death during the process of metamorphosis and when the tissue that will give rise to the adult originates. Here we present patterns of cell proliferation and cell death during larval development, metamorphosis, and adult body plan formation, in the hemichordate Schizocardium californium to answer these questions.ResultsWe identified distinct patterns of cell proliferation between larval and adult body plan formation of S. californicum. We found that some adult tissues proliferate prior to the start of any morphological metamorphosis. Additionally, we describe a genetic signature of proliferative cells with an irradiation approach that revealed markers shared between the life history states and others that are unique to larvae or juveniles. Finally, we observed that cell death is minimal in larval stages but begins with the onset of metamorphosis.ConclusionsCell proliferation during the development of S. californicum has distinct patterns in the formation of larval and adult body plans. However, cell death is very limited in larvae and begins during the onset of metamorphosis and into early juvenile development in specific domains. The populations of cells that proliferate and give rise to the larva and juvenile have a genetic signature that is more suggestive of a heterogeneous pool of proliferative progenitors versus a population of pluripotent set-aside cells. Taken together, we propose that S. californicum has a transformative metamorphosis that may be more representative of the development strategies that characterize metamorphosis in many metazoan animals.

Published

2022

13. Saccoglossus kowalevskii: Evo-devo insights from the mud

Author

Jessica Gray, Jens H. Fritzenwanker, Doreen D. Cunningham, and Christopher J. Lowe

Published

2022

14. Uptake and trophic changes in polybrominated diphenyl ethers in the benthic marine food chain in southwestern British Columbia, Canada

Author

Peter S. Ross, Marie Noël, Brenda J. Burd, Christopher J. Lowe, Carmen Morales-Caselles, and Tara A. Macdonald

Subjects

0106 biological sciences, endocrine system, Multidisciplinary, Trophic changes, PBDEs, 010604 marine biology & hydrobiology, Fauna, Sediment, 010501 environmental sciences, 01 natural sciences, humanities, Food chain, Polybrominated diphenyl ethers, Benthic zone, Environmental chemistry, trophic transfer, Environmental science, lcsh:Q, lcsh:L, lcsh:Science, marine sediments, reproductive and urinary physiology, lcsh:Education, 0105 earth and related environmental sciences, Trophic level

Abstract

We examined the physical and geochemical effects of sediment on the uptake of polybrominated diphenyl ethers (PBDEs) into marine sediment feeders and their transfer to higher trophic fauna. Sediment PBDEs increased with % total organic carbon (%TOC), organic carbon (OC) flux and grain size (%fines). Tissue PBDE variance was best explained ( R2 = 0.70) by sediment acid volatile sulfides (AVS), PBDEs, and organic lability and input, with the highest values near wastewater outfalls. Dry weight tissue/sediment PBDEs declined with increasing sediment PBDEs, resulting in tissue dilution (ratio 10 000 pg/g in harbours. Ratios also decreased with increasing %fines, resulting in regional differences. These patterns imply that high levels of fines and high sediment concentrations make PBDEs less bioavailable. Dry weight PBDEs increased >100× between background deposit feeders and predators (polychaetes, crabs, bottom fish, seal), but lipid normalized PBDEs barely increased ( The most profound congener change occurred with sediment uptake, with nona/deca-BDEs declining and tetra-hexa-BDEs increasing. Harbour sediment feeders had more deca-BDEs than other samples, suggesting PBDEs mostly pass unmodifed through them. Deca-BDEs persist patchily in all tissues, reflecting variable dependence on sediment/pelagic food.

Published

2019

15. Free radical-mediated targeting and immobilization of coupled payloads

Author

Emily T. DiMartini, David I. Shreiber, Keana R. Mirmajlesi, Christopher J. Lowe, and Adam J. Gormley

Subjects

Free Radicals, Chemistry, technology, industry, and agriculture, Pharmaceutical Science, 02 engineering and technology, Limiting, 021001 nanoscience & nanotechnology, Article, Polyethylene Glycols, Rats, 03 medical and health sciences, Drug Delivery Systems, 0302 clinical medicine, Acrylates, 030220 oncology & carcinogenesis, Drug delivery, Biophysics, Animals, Humans, Rats, Transgenic, Reactive Oxygen Species, 0210 nano-technology, Cells, Cultured

Abstract

Targeted drug delivery is a promising approach to enhance the accumulation of therapies in diseased tissues while limiting off-site effects. Ligand-receptor interactions are traditionally identified to deliver therapies, and although specific, this can be costly and often suffers from limited sensitivity. An emerging approach is to target intermediary species that modulate disease progression. Here, we propose novel methods of targeting therapies by using native free radicals as a homing signal. Elevated concentrations of free radicals are a characteristic comorbidity of many different diseases. In polymer chemistry, free radicals are frequently used to initiate crosslinking reactions. We proposed that free radicals elevated in injury sites are capable of inducing crosslinking of acrylate groups on polymer chains. Coupling payloads to the polymer then allows for specific targeting of therapies to areas with elevated free radicals. We demonstrate in vitro proof-of-principle of this approach. Reactive oxygen species (ROS) initiated crosslinking of acrylated PEGs, which immobilized a fluorescent payload within tissue mimics. The crosslinking efficiency and immobilization potential varied with the polymer chain length, suggesting that a tunable platform can be achieved. Together these results provide promising proof-of-concept for using free radicals to specifically target and sustain nearly endless payloads to disease sites.

Published

2019

16. The cadherin-catenin complex is necessary for cell adhesion and embryogenesis in Nematostella vectensis

Author

D. Nathaniel Clarke, W. James Nelson, and Christopher J. Lowe

Subjects

Embryo, Nonmammalian, food.ingredient, Embryonic Development, Nematostella, Article, 03 medical and health sciences, 0302 clinical medicine, food, Cell Adhesion, Animals, Cell adhesion, Molecular Biology, 030304 developmental biology, 0303 health sciences, biology, Cadherin, Starlet sea anemone, Catenins, Cell Biology, Adhesion, Cadherins, biology.organism_classification, Cell aggregation, Cell biology, Sea Anemones, Catenin, Catenin complex, 030217 neurology & neurosurgery, Developmental Biology

Abstract

The cadherin-catenin complex is a conserved, calcium-dependent cell-cell adhesion module that is necessary for normal development and the maintenance of tissue integrity in bilaterian animals. Despite longstanding evidence of a deep ancestry of calcium-dependent cell adhesion in animals, the requirement of the cadherin-catenin complex to coordinate cell-cell adhesion has not been tested directly in a non-bilaterian organism. Here, we provide the first analysis of classical cadherins and catenins in the Starlet Sea Anemone, Nematostella vectensis. Gene expression, protein localization, siRNA-mediated knockdown of α-catenin, and calcium-dependent cell aggregation assays provide evidence that a bonafide cadherin-catenin complex is present in the early embryo, and that α-catenin is required for normal embryonic development and the formation of cell-cell adhesions between cells dissociated from whole embryos. Together these results support the hypothesis that the cadherin-catenin complex was likely a complete and functional cell-cell adhesion module in the last common cnidarian-bilaterian ancestor. SUMMARY STATEMENT: Embryonic manipulations and ex vivo adhesion assays in the sea anemone, Nematostella vectensis, indicate that the necessity of the cadherin-catenin complex for mediating cell-cell adhesion is deeply conserved in animal evolution.

Published

2019

17. The growing role of precision and personalized medicine for cancer treatment

Author

Paulina Krzyszczyk, Max L. Balter, Erika J Davidoff, Ileana Marrero-Berrios, Corina White, Joseph J. Sherba, Kate O'Neill, Zachary Fritz, Misaal Patel, Rene S. Schloss, Christopher J. Lowe, Alison Acevedo, Martin L. Yarmush, Ioannis P. Androulakis, Clara Hartmanshenn, and Lauren M Timmins

Subjects

0301 basic medicine, medicine.medical_specialty, business.industry, Cancer Treatment, Personalized Medicine, Cancer, Disease, Precision medicine, medicine.disease, Article, 3. Good health, Cancer treatment, 03 medical and health sciences, Patient population, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Health care, medicine, Personalized medicine, Precision Medicine, business, Intensive care medicine

Abstract

Cancer is a devastating disease that takes the lives of hundreds of thousands of people every year. Due to disease heterogeneity, standard treatments, such as chemotherapy or radiation, are effective in only a subset of the patient population. Tumors can have different underlying genetic causes and may express different proteins in one patient versus another. This inherent variability of cancer lends itself to the growing field of precision and personalized medicine (PPM). There are many ongoing efforts to acquire PPM data in order to characterize molecular differences between tumors. Some PPM products are already available to link these differences to an effective drug. It is clear that PPM cancer treatments can result in immense patient benefits, and companies and regulatory agencies have begun to recognize this. However, broader changes to the healthcare and insurance systems must be addressed if PPM is to become part of standard cancer care.

Published

2019

18. Molecular insights into deuterostome evolution from hemichordate developmental biology

Author

Christopher J, Lowe

Subjects

Gills, Mesoderm, Life Cycle Stages, Embryo, Nonmammalian, Chordata, Nonvertebrate, Animals, Biological Evolution, Phylogeny, Body Patterning

Abstract

Hemichordates, along with echinoderms and chordates, belong to the lineage of bilaterians called the deuterostomes. Their phylogenetic position as an outgroup to chordates provides an opportunity to investigate the evolutionary origins of the chordate body plan and reconstruct ancestral deuterostome characters. The body plans of the hemichordates and chordates are organizationally divergent making anatomical comparisons very challenging. The developmental underpinnings of animal body plans are often more conservative than the body plans they regulate, and offer a novel data set for making comparisons between morphologically divergent body architectures. Here I review the hemichordate developmental data generated over the past 20 years that further test hypotheses of proposed morphological affinities between the two taxa, but also compare the conserved anteroposterior, dorsoventral axial patterning programs and germ layer specification programs. These data provide an opportunity to determine which developmental programs are ancestral deuterostome or bilaterian innovations, and which ones occurred in stem chordates or vertebrates representing developmental novelties of the chordate body plan.

Published

2021

19. Neural anatomy of echinoid early juveniles and comparison of nervous system organization in echinoderms

Author

Laurent Formery, Christopher J. Lowe, Jenifer C. Croce, Antoine Formery, François Orange, Shunsuke Yaguchi, Michael Schubert, Laboratoire de Biologie du Développement de Villefranche sur mer (LBDV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de la Mer de Villefranche (IMEV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Centre Commun de Microscopie Appliquée (CCMA), Université de Nice Sophia-Antipolis (UNSA), Université de Tsukuba = University of Tsukuba, Hopkins Marine Station [Stanford], and Stanford University

Subjects

0301 basic medicine, Nervous system, Male, Nervous System, sea urchin, 03 medical and health sciences, 0302 clinical medicine, evolution, medicine, Animals, 14. Life underwater, ComputingMilieux_MISCELLANEOUS, Radial nerve, Appendage, sea star, Deuterostome, biology, Comparative anatomy, General Neuroscience, Age Factors, Nerve plexus, Anatomy, biology.organism_classification, Biological Evolution, [SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoology, 030104 developmental biology, medicine.anatomical_structure, Body plan, juvenile, [SDV.BDD.EO]Life Sciences [q-bio]/Development Biology/Embryology and Organogenesis, Echinoderm, Larva, Paracentrotus, Female, sea cucumber, 030217 neurology & neurosurgery, Echinodermata

Abstract

International audience; The echinoderms are a phylum of marine deuterostomes characterized by the pentaradial (five fold) symmetry of their adult bodies. Due to this unusual body plan, adult echinoderms have long been excluded from comparative analyses aimed at understanding the origin and evolution of deuterostome nervous systems. Here, we investigated the neural anatomy of early juveniles of representatives of three of the five echinoderm classes: the echinoid Paracentrotus lividus, the asteroid Patiria miniata, and the holothuroid Parastichopus parvimensis. Using whole mount immunohistochemistry and confocal microscopy, we found that the nervous system of echinoid early juveniles is composed of three main structures: a basiepidermal nerve plexus, five radial nerve cords connected by a circumoral nerve ring, and peripheral nerves innervating the appendages. Our whole mount preparations further allowed us to obtain thorough descriptions of these structures and of several innervation patterns, in particular at the level of the appendages. Detailed comparisons of the echinoid juvenile nervous system with those of asteroid and holothuroid juveniles moreover supported a general conservation of the main neural structures in all three species, including at the level of the appendages. Our results support the previously proposed hypotheses for the existence of two neural units in echinoderms: one consisting of the basiepidermal nerve plexus to process sensory stimuli locally and one composed of the radial nerve cords and the peripheral nerves constituting a centralized control system. This study provides the basis for more in‐depth comparisons of the echinoderm adult nervous system with those of other animals, in particular hemichordates and chordates, to address the long‐standing controversies about deuterostome nervous system evolution.

Published

2021

20. Molecular insights into deuterostome evolution from hemichordate developmental biology

Author

Christopher J. Lowe

Subjects

0303 health sciences, Deuterostome, Phylogenetic tree, biology, Lineage (evolution), Chordate, Hemichordate, biology.organism_classification, 03 medical and health sciences, Body plan, Evolutionary biology, Animal body, Developmental biology, 030304 developmental biology

Abstract

Hemichordates, along with echinoderms and chordates, belong to the lineage of bilaterians called the deuterostomes. Their phylogenetic position as an outgroup to chordates provides an opportunity to investigate the evolutionary origins of the chordate body plan and reconstruct ancestral deuterostome characters. The body plans of the hemichordates and chordates are organizationally divergent making anatomical comparisons very challenging. The developmental underpinnings of animal body plans are often more conservative than the body plans they regulate, and offer a novel data set for making comparisons between morphologically divergent body architectures. Here I review the hemichordate developmental data generated over the past 20 years that further test hypotheses of proposed morphological affinities between the two taxa, but also compare the conserved anteroposterior, dorsoventral axial patterning programs and germ layer specification programs. These data provide an opportunity to determine which developmental programs are ancestral deuterostome or bilaterian innovations, and which ones occurred in stem chordates or vertebrates representing developmental novelties of the chordate body plan.

Published

2021

21. Molecular evidence for a single origin of ultrafiltration-based excretory organs

Author

Graham E. Budd, Andreas Hejnol, Ralf Janssen, Christopher J. Lowe, Ludwik Gąsiorowski, Carmen Andrikou, and Paul A. Bump

Subjects

0301 basic medicine, Nephridium, Hemichordate, General Biochemistry, Genetics and Molecular Biology, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Nephrozoa, Animals, Phoronid, Phylogeny, Flatworm, Annelid, biology, Animal Structures, Systematic zoology: 487 [VDP], biology.organism_classification, Invertebrates, 030104 developmental biology, Excretory system, Evolutionary biology, Vertebrates, Systematisk zoologi: 487 [VDP], Protostome, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Transcription Factors

Abstract

Excretion is an essential physiological process, carried out by all living organisms, regardless of their size or complexity.1, 2, 3 Both protostomes (e.g., flies and flatworms) and deuterostomes (e.g., humans and sea urchins) possess specialized excretory organs serving that purpose. Those organs exhibit an astonishing diversity, ranging from units composed of just few distinct cells (e.g., protonephridia) to complex structures, built by millions of cells of multiple types with divergent morphology and function (e.g., vertebrate kidneys).4,5 Although some molecular similarities between the development of kidneys of vertebrates and the regeneration of the protonephridia of flatworms have been reported,6,7 the molecular underpinnings of the development of excretory organs have never been systematically studied in a comparative context.4 Here, we show that a set of transcription factors (eya, six1/2, pou3, sall, lhx1/5, and osr) and structural proteins (nephrin, kirre, and zo1) is expressed in the excretory organs of a phoronid, brachiopod, annelid, onychophoran, priapulid, and hemichordate that represent major protostome lineages and non-vertebrate deuterostomes. We demonstrate that the molecular similarity observed in the vertebrate kidney and flatworm protonephridia6,7 is also seen in the developing excretory organs of those animals. Our results show that all types of ultrafiltration-based excretory organs are patterned by a conserved set of developmental genes, an observation that supports their homology. We propose that the last common ancestor of protostomes and deuterostomes already possessed an ultrafiltration-based organ that later gave rise to the vast diversity of extant excretory organs, including both proto- and metanephridia. acceptedVersion

Published

2021

22. A single origin of animal excretory organs

Author

Ralf Janssen, Paul A. Bump, Carmen Andrikou, Andreas Hejnol, Christopher J. Lowe, Graham E. Budd, and Ludwik Gasiorowski

Subjects

Excretion, Flatworm, biology, Excretory system, Evolutionary biology, biology.animal, Nephrozoa, Vertebrate, Protostome, Context (language use), Nephridium, biology.organism_classification

Abstract

Excretion is an essential physiological process, carried out by all living organisms regardless of their size or complexity(1–3). Most animals, which include both protostomes (e.g. flies, flatworms) and deuterostomes (e.g. humans, sea urchins) (together Nephrozoa(4, 5)), possess specialized excretory organs. Those organs exhibit an astonishing diversity, ranging from units composed of just three distinct cells (e.g. protonephridia) to complex structures, built by millions of cells of multiple types with divergent morphology and function (e.g. vertebrate kidneys)(6, 7). Although some molecular similarities between the development of kidneys of vertebrates and the regeneration of the protonephridia of flatworms have been reported(8, 9), the molecular development of nephrozoan excretory organs has never been systematically studied in a comparative context(6). Here we show that a set of highly conserved transcription factors and structural proteins is expressed during the development of excretory organs of six species that represent major protostome lineages and non-vertebrate deuterostomes. We demonstrate that the molecular similarity witnessed in the vertebrate kidney and flatworm protonephridia(8) is also seen in the developing excretory organs of other Nephrozoa. In addition, orthologous structural proteins forming the ultrafiltration apparatus are expressed in all these organs in the filter-forming cells. Our results strongly suggest that excretory organs are homologous and are patterned by the conserved set of developmental genes. We propose that the last common nephrozoan ancestor possessed an ultrafiltration-based, ciliated excretory organ, a structure that later gave rise to the vast diversity of extant excretory organs, including the human kidney.Significance statementMost of the bilaterally symmetrical animals excrete through specialized excretory organs, such as kidneys and nephridia. However, due to the morphological diversity of these organs, it remains unknown whether those structures evolved from a common ancestral organ or appeared several times independently during evolution. In order to answer the question about the origin of excretory organs we investigated the molecular pathways and structural genes involved in the development of nephridia in 6 animal species representing major evolutionary lineages. We show that diverse excretory organs share an ancient molecular patterning and structural molecules. Our results provide strong evidence that all excretory organs originated from a single, simple organ that performed urine production by ultrafiltration in deep geological past.

Published

2020

23. Author response for 'Neural anatomy of echinoid early juveniles and comparison of nervous system organization in echinoderms'

Author

Laurent Formery, Christopher J. Lowe, Jenifer C. Croce, Antoine Formery, Shunsuke Yaguchi, Michael Schubert, and François Orange

Subjects

Nervous system, medicine.anatomical_structure, medicine, Anatomy, Biology

Published

2020

24. Risks of hypoxia and acidification in the high energy coastal environment near Victoria, Canada's untreated municipal sewage outfalls

Author

Roberta C. Hamme, Christopher J. Lowe, Jeremy Krogh, and Debby Ianson

Subjects

Risk, Canada, High energy, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, Municipal sewage, Wastewater, 010501 environmental sciences, Aquatic Science, Oceanography, Waste Disposal, Fluid, 01 natural sciences, Oxygen, Water column, Seawater, 14. Life underwater, 0105 earth and related environmental sciences, Carbon chemistry, Outfall, Environmental engineering, Hypoxia (environmental), Hydrogen-Ion Concentration, Pollution, Carbon, 6. Clean water, chemistry, 13. Climate action, Environmental science, Environmental Monitoring

Abstract

Wastewater disposal often has deleterious impacts on the receiving environment. Low dissolved oxygen levels are particularly concerning. Here, we investigate the impacts on dissolved oxygen and carbon chemistry of screened municipal wastewater in the marine waters off Victoria, Canada. We analyzed data from undersea moorings, ship-based monitoring, and remotely-operated vehicle video. We used these observations to construct a two-layer model of the nearfield receiving environment. Despite the lack of advanced treatment, dissolved oxygen levels near the outfalls were well above a 62 μmol kg−1 hypoxic threshold. Furthermore, the impact on water column oxygen at the outfall is likely

Published

2018

25. The development and metamorphosis of the indirect developing acorn worm Schizocardium californicum (Enteropneusta: Spengelidae)

Author

Jeffrey Z. Jiang, Christopher J. Lowe, and Paul Gonzalez

Subjects

0106 biological sciences, 0301 basic medicine, animal structures, media_common.quotation_subject, Zoology, Indirect development, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, lcsh:Zoology, lcsh:QL1-991, Metamorphosis, Schizocardium californicum, Ecology, Evolution, Behavior and Systematics, media_common, Larva, Deuterostome, Enteropneusta, Hemichordata, biology, Embryogenesis, fungi, biology.organism_classification, Gastrulation, 030104 developmental biology, Body plan, Coelom, Animal Science and Zoology, Acorn worm, Planktotrophy

Abstract

Background Enteropneusts are benthic marine invertebrates that belong to the deuterostome phylum Hemichordata. The two main clades of enteropneusts are defined by differences in early life history strategies. In the Spengelidae and Ptychoderidae, development is indirect via a planktotrophic tornaria larva. In contrast, development in the Harrimanidae is direct without an intervening larval life history stage. Most molecular studies in the development and evolution of the enteropneust adult body plan have been carried out in the harrimanid Saccoglossus kowalevskii. In order to compare these two developmental strategies, we have selected the spengelid enteropneust Schizocardium californicum as a suitable indirect developing species for molecular developmental studies. Here we describe the methods for adult collecting, spawning and larval rearing in Schizocardium californicum, and describe embryogenesis, larval development, and metamorphosis, using light microscopy, immunocytochemistry and confocal microscopy. Results Adult reproductive individuals can be collected intertidally and almost year-round. Spawning can be triggered by heat shock and large numbers of larvae can be reared through metamorphosis under laboratory conditions. Gastrulation begins at 17 h post-fertilization (hpf) and embryos hatch at 26 hpf as ciliated gastrulae. At 3 days post-fertilization (dpf), the tornaria has a circumoral ciliary band, mouth, tripartite digestive tract, protocoel, larval muscles and a simple serotonergic nervous system. The telotroch develops at 5 dpf. In the course of 60 days, the serotonergic nervous system becomes more elaborate, the posterior coeloms develop, and the length of the circumoral ciliary band increases. At the end of the larval stage, larval muscles disappear, gill slits form, and adult muscles develop. Metamorphosis occurs spontaneously when the larva reaches its maximal size (ca. 3 mm), and involves loss and reorganization of larval structures (muscles, nervous system, digestive tract), as well as development of adult structures (adult muscles, tripartite body organization). Conclusions This study will enable future research in S. californicum to address long standing questions related to the evolution of axial patterning mechanisms, germ layer induction, neurogenesis and neural patterning, the mechanisms of metamorphosis, the relationships between larval and adult body plans, and the evolution of metazoan larval forms.

Published

2018

26. A thermoreversible, photocrosslinkable collagen bio-ink for free-form fabrication of scaffolds for regenerative medicine

Author

David I. Shreiber, Christopher J. Lowe, Kathryn E. Drzewiecki, Juilee N. Malavade, and Ijaz Ahmed

Subjects

0301 basic medicine, Materials science, Biocompatibility, Regeneration (biology), technology, industry, and agriculture, Biomaterial, 02 engineering and technology, 021001 nanoscience & nanotechnology, Regenerative medicine, humanities, Article, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Tissue engineering, Self-healing hydrogels, Methacrylamide, 0210 nano-technology, Cell adhesion, health care economics and organizations, Biomedical engineering

Abstract

As a biomaterial, collagen has been used throughout tissue engineering and regenerative medicine. Collagen is native to the body, is highly biocompatible, and naturally promotes cell adhesion and regeneration. However, collagen fibers and the inherent weak mechanical properties of collagen hydrogels interfere with further development of collagen as a bio-ink. Herein, we demonstrate the use of a modified type-I collagen, collagen methacrylamide (CMA), as a fibril-forming bio-ink for free-form fabrication of scaffolds. Like collagen, CMA can self-assemble into a fibrillar hydrogel at physiological conditions. In contrast, CMA is photocrosslinkable and thermoreversible, and photocrosslinking eliminates thermoreversibility. Free-form fabrication of CMA was performed through self-assembly of the CMA hydrogel, photocrosslinking the structure of interest using a photomask, and cooling the entire hydrogel, which results in cold-melting of unphotocrosslinked regions. Printed hydrogels had a resolution on the order of [Formula: see text]350[Formula: see text][Formula: see text]m, and can be fabricated with or without cells and maintain viability or be further processed into freeze-dried sponges, all while retaining pattern fidelity. A subcutaneous implant study confirmed the biocompatibility of CMA in comparison to collagen. Free-form fabrication of CMA allows for printing of macroscale, customized scaffolds with good pattern fidelity and can be implemented with relative ease for continued research and development of collagen-based scaffolds in tissue engineering.

Published

2017

27. Untangling posterior growth and segmentation by analyzing mechanisms of axis elongation in hemichordates

Author

Christopher J. Lowe, John C. Gerhart, Kevin R. Uhlinger, Jens H. Fritzenwanker, and Elena M. Silva

Subjects

Brachyury, animal structures, Embryo, Nonmammalian, Notch signaling pathway, Embryonic Development, Hemichordate, 03 medical and health sciences, 0302 clinical medicine, Chordata, Nonvertebrate, Animals, Segmentation, Axis elongation, Wnt Signaling Pathway, 030304 developmental biology, Body Patterning, 0303 health sciences, Multidisciplinary, biology, Receptors, Notch, Gene Expression Regulation, Developmental, Biological Sciences, biology.organism_classification, Trunk, Gastrulation, Body plan, Evolutionary biology, 030217 neurology & neurosurgery

Abstract

The trunk is a key feature of the bilaterian body plan. Despite spectacular morphological diversity in bilaterian trunk anatomies, most insights into trunk development are from segmented taxa, namely arthropods and chordates. Mechanisms of posterior axis elongation (PAE) and segmentation are tightly coupled in arthropods and vertebrates, making it challenging to differentiate between the underlying developmental mechanisms specific to each process. Investigating trunk elongation in unsegmented animals facilitates examination of mechanisms specific to PAE and provides a different perspective for testing hypotheses of bilaterian trunk evolution. Here we investigate the developmental roles of canonical Wnt and Notch signaling in the hemichordate Saccoglossus kowalevskii and reveal that both pathways play key roles in PAE immediately following the completion of gastrulation. Furthermore, our functional analysis of the role of Brachyury is supportive of a Wnt-Brachyury feedback loop during PAE in S. kowalevskii, establishing this key regulatory interaction as an ancestral feature of deuterostomes. Together, our results provide valuable data for testing hypotheses of bilaterian trunk evolution.

Published

2019

28. Molecular patterning during the development of Phoronopsis harmeri reveals similarities to rhynchonelliform brachiopods

Author

Andreas Hejnol, Mark Q. Martindale, Carmen Andrikou, Christopher J. Lowe, and Yale J. Passamaneck

Subjects

0106 biological sciences, Brachyury, Mesoderm, animal structures, Evolution, Phoronid, lcsh:Evolution, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Genetics, medicine, lcsh:QH359-425, Axis specification, Bilateria, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Deuterostome, Lophophorates, biology, Research, Foregut, biology.organism_classification, Gastrulation, medicine.anatomical_structure, Evolutionary biology, Embryogenesis, embryonic structures, Gene expression, Developmental Biology

Abstract

BackgroundPhoronids, rhynchonelliform and linguliform brachiopods show striking similarities in their embryonic fate maps, in particular in their axis specification and regionalization. However, although brachiopod development has been studied in detail and demonstrated embryonic patterning as a causal factor of the gastrulation mode (protostomy vs deuterostomy), molecular descriptions are still missing in phoronids. To understand whether phoronids display underlying embryonic molecular mechanisms similar to those of brachiopods, here we report the expression patterns of anterior (otx,gsc,six3/6,nk2.1), posterior (cdx, bra) and endomesodermal (foxA,gata4/5/6,twist) markers during the development of the protostomic phoronidPhoronopsis harmeri.ResultsThe transcription factorsfoxA, gata4/5/6andcdxshow conserved expression in patterning the development and regionalization of the phoronid embryonic gut, withfoxAexpressed in the presumptive foregut,gata4/5/6demarcating the midgut andcdxconfined to the hindgut. Furthermore,six3/6,usually a well-conserved anterior marker, shows a remarkably dynamic expression, demarcating not only the apical organ and the oral ectoderm, but also clusters of cells of the developing midgut and the anterior mesoderm, similar to what has been reported for brachiopods, bryozoans and some deuterostome Bilateria. Surprisingly,brachyury, a transcription factor often associated with gastrulation movements and mouth and hindgut development, seems not to be involved with these patterning events in phoronids.ConclusionsOur description and comparison of gene expression patterns with other studied Bilateria reveals that the timing of axis determination and cell fate distribution of the phoronid shows highest similarity to that of rhynchonelliform brachiopods, which is likely related to their shared protostomic mode of development. Despite these similarities, the phoronidPh. harmerialso shows particularities in its development, which hint to divergences in the arrangement of gene regulatory networks responsible for germ layer formation and axis specification.

Published

2019

29. Characterization of the Cadherin–Catenin Complex of the Sea AnemoneNematostella vectensisand Implications for the Evolution of Metazoan Cell–Cell Adhesion

Author

Donald Nathaniel Clarke, William I. Weis, Phillip W. Miller, William James Nelson, and Christopher J. Lowe

Subjects

0301 basic medicine, food.ingredient, Alpha catenin, catenin, Nematostella, macromolecular substances, Biology, Bioinformatics, adherens junction, cnidarians, 03 medical and health sciences, food, evolution, Genetics, Animals, 14. Life underwater, Cell adhesion, Molecular Biology, beta Catenin, Discoveries, Ecology, Evolution, Behavior and Systematics, Actin, Cadherin, Cell Membrane, Catenins, cell adhesion, Cadherins, Actin cytoskeleton, Biological Evolution, Actins, Cell biology, Sea Anemones, cadherin, 030104 developmental biology, Catenin, Catenin complex, alpha Catenin, Protein Binding

Abstract

The cadherin–catenin complex (CCC) mediates cell–cell adhesion in bilaterian animals by linking extracellular cadherin-based adhesions to the actin cytoskeleton. However, it is unknown whether the basic organization of the complex is conserved across all metazoans. We tested whether protein interactions and actin-binding properties of the CCC are conserved in a nonbilaterian animal, the sea anemone Nematostella vectensis. We demonstrated that N. vectensis has a complete repertoire of cadherin–catenin proteins, including two classical cadherins, one α-catenin, and one β-catenin. Using size-exclusion chromatography and multi-angle light scattering, we showed that α-catenin and β-catenin formed a heterodimer that bound N. vectensis Cadherin-1 and -2. Nematostella vectensis α-catenin bound F-actin with equivalent affinity as either a monomer or an α/β-catenin heterodimer, and its affinity for F-actin was, in part, regulated by a novel insert between the N- and C-terminal domains. Nematostella vectensis α-catenin inhibited Arp2/3 complex-mediated nucleation of actin filaments, a regulatory property previously thought to be unique to mammalian αE-catenin. Thus, despite significant differences in sequence, the key interactions of the CCC are conserved between bilaterians and cnidarians, indicating that the core function of the CCC as a link between cell adhesions and the actin cytoskeleton is ancestral in the eumetazoans.

Published

2016

30. Cis-regulatory architecture of a brain-signaling center predates the origin of chordates

Author

Anna N King, Douglas J. Epstein, Ariel M. Pani, Yongsu Jeong, Christopher J. Lowe, François Spitz, Paul J. Minor, Yao Yao, Orsolya Symmons, Wellington V. Cardoso, Lin Gan, and Ying-Tao Zhao

Subjects

Male, 0301 basic medicine, animal structures, Mice, Transgenic, Chordate, Biology, Article, Evolution, Molecular, Mice, 03 medical and health sciences, Prosencephalon, Genetics, medicine, Animals, Hedgehog Proteins, Sonic hedgehog, Chordata, Enhancer, Transcription factor, Regulation of gene expression, biology.organism_classification, Cell biology, Enhancer Elements, Genetic, 030104 developmental biology, medicine.anatomical_structure, embryonic structures, Zona limitans intrathalamica, biology.protein, Female, Sequence motif, Signal Transduction, Transcription Factors, Morphogen

Abstract

Douglas Epstein and colleagues use de novo motif analysis to identify sequence motifs and cognate transcription factors for brain enhancers of Shh active in the zona limitans intrathalamica (zli). They find new zli enhancers in mice and a functional equivalent in hemichordates, indicating an ancient origin of these sequence elements. Genomic approaches have predicted hundreds of thousands of tissue-specific cis-regulatory sequences, but the determinants critical to their function and evolutionary history are mostly unknown1,2,3,4. Here we systematically decode a set of brain enhancers active in the zona limitans intrathalamica (zli), a signaling center essential for vertebrate forebrain development via the secreted morphogen Sonic hedgehog (Shh)5,6. We apply a de novo motif analysis tool to identify six position-independent sequence motifs together with their cognate transcription factors that are essential for zli enhancer activity and Shh expression in the mouse embryo. Using knowledge of this regulatory lexicon, we discover new Shh zli enhancers in mice and a functionally equivalent element in hemichordates, indicating an ancient origin of the Shh zli regulatory network that predates the chordate phylum. These findings support a strategy for delineating functionally conserved enhancers in the absence of overt sequence homologies and over extensive evolutionary distances.

Published

2016

31. Production of Highly Aligned Collagen Scaffolds by Freeze-drying of Self-assembled, Fibrillar Collagen Gels

Author

Matthew C. Grota, Ian M. Reucroft, Christopher J. Lowe, and David I. Shreiber

Subjects

0301 basic medicine, Scaffold, Materials science, Fibrillar collagen, Critical factors, Biomedical Engineering, 02 engineering and technology, Matrix (biology), 021001 nanoscience & nanotechnology, Regenerative medicine, Article, Self assembled, Biomaterials, 03 medical and health sciences, Freeze-drying, 030104 developmental biology, Tissue engineering, 0210 nano-technology, Biomedical engineering

Abstract

Matrix and cellular alignment are critical factors in the native function of many tissues, including muscle, nerve, and ligaments. Collagen is frequently a component of these aligned tissues, and collagen biomaterials are widely used in tissue engineering applications. However, the generation of aligned collagen scaffolds that maintain the native architecture of collagen fibrils has not been straightforward, with many methods requiring specialized equipment or technical procedures, extensive incubation times, or denaturing of the collagen. Herein, we present a simple, rapid method for fabrication of highly aligned collagen scaffolds. Collagen was assembled to form a fibrillar hydrogel in a cylindrical conduit with high aspect ratio and then frozen and lyophilized. The resulting collagen scaffolds demonstrated highly aligned topographical features along the scaffold surface. This presence of an initial fibrillar network and the high-aspect ratio vessel were both required to generate alignment. The diameter of fabricated scaffolds was found to vary significantly with both the collagen concentration of the hydrogel suspension and the diameter of conduits used for fabrication. Additionally, the size of individual aligned topographical features was significantly dependent on the conduit diameter and the freezing temperature. When cultured on aligned collagen scaffolds, both rat dermal fibroblasts and axons emerging from chick dorsal root ganglia explants demonstrated elongated, aligned morphology and growth on the aligned topographical features. Overall, this method presents a simple means for generating aligned collagen scaffolds that can be applied to a wide variety of tissue types, particularly those where such alignment is critical to native function.

Published

2016

32. Pharmaceutical concentrations in screened municipal wastewaters in Victoria, British Columbia: A comparison with prescription rates and predicted concentrations

Author

Leslie J. Saunders, Christopher J. Lowe, and Asit Mazumder

Subjects

Ketoprofen, Naproxen, 010504 meteorology & atmospheric sciences, Chemistry, Health, Toxicology and Mutagenesis, High variability, 010501 environmental sciences, 01 natural sciences, Prescription data, Environmental impact of pharmaceuticals and personal care products, 6. Clean water, 3. Good health, Toxicology, Wastewater, 13. Climate action, Environmental chemistry, medicine, Environmental Chemistry, Medical prescription, Effluent, 0105 earth and related environmental sciences, medicine.drug

Abstract

Pharmaceuticals and personal care products (PPCPs) are emerging chemicals of concern detected in surface waters globally. Recent reviews advocate that PPCP occurrence, fate, and exposure need to be better predicted and characterized. The use of pharmaceutical prescription rates to estimate PPCP concentrations in the environment has been suggested. Concentrations of 7 pharmaceuticals (acetylsalicylic acid, diclofenac, fenoprofen, gemfibrozil, ibuprofen, ketoprofen, and naproxen) were measured in municipal wastewater using gas chromatography/ion trap-tandem mass spectroscopy (GC/IT-MS/MS). Subregional pharmaceutical prescription data were investigated to determine whether they could predict measured effluent concentrations (MECs) in wastewaters. Predicted effluent concentrations (PECs) for 5 of the 7 pharmaceuticals were within 2-fold agreement of the MECs when the fraction of parent pharmaceutical excreted was not considered. When the fraction of parent pharmaceutical excreted was considered, the respective PECs decreased, and most were within an order of magnitude of the MECs. Regression relationships of monthly PECs versus MECs were statistically significant (p < 0.05) but weak (R(2) = 0.18-0.56) for all pharmaceuticals except ketoprofen. This suggests high variability in the data and may be the result of factors influencing MECs such as the analytical methods used, wastewater sampling frequency, and methodology. The PECs were based solely on prescription rates and did not account for inputs of pharmaceuticals that had a significant over-the-counter component or were from other sources (e.g., hospitals).

Published

2016

33. I-SceI Meganuclease-mediated transgenesis in the acorn worm, Saccoglossus kowalevskii

Author

Christopher J. Lowe, Jessica Gray, José M. Andrade López, D. Nathaniel Clarke, Paul J. Minor, and Jens H. Fritzenwanker

Subjects

Computational biology, Hemichordate, Genome, Article, Animals, Genetically Modified, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Chordata, Nonvertebrate, Animals, Enhancer, Chordata, Molecular Biology, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Deuterostome, biology, Gene Transfer Techniques, Polychaeta, Cell Biology, biology.organism_classification, Biological Evolution, Invertebrates, Transgenesis, Meganuclease, Acorn worm, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Hemichordates are a phylum of marine invertebrate deuterostomes that are closely related to chordates, and represent one of the most promising models to provide insights into early deuterostome evolution. The genome of the hemichordate, Saccoglossus kowalevskii, reveals an extensive set of non-coding elements conserved across all three deuterostome phyla. Functional characterization and cross-phyla comparisons of these putative regulatory elements will enable a better understanding of enhancer evolution, and subsequently how changes in gene regulation give rise to morphological innovation. Here, we describe an efficient method of transgenesis for the characterization of non-coding elements in S. kowalevskii. We first test the capacity of an I-SceI transgenesis system to drive ubiquitous or regionalized gene expression, and to label specific cell types. Finally, we identified a minimal promoter that can be used to test the capacity of putative enhancers in S. kowalevskii. This work demonstrates that this I-SceI transgenesis technique, when coupled with an understanding of chromatin accessibility, can be a powerful tool for studying how evolutionary changes in gene regulatory mechanisms contributed to the diversification of body plans in deuterostomes.

Published

2018

34. Anteroposterior axis patterning by early canonical Wnt signaling during hemichordate development

Author

Sébastien Darras, Mark Terasaki, Jens H. Fritzenwanker, Kevin R. Uhlinger, Christopher J. Lowe, Imogen A. Hurley, Ariel M. Pani, Michelle Osovitz, Ellyn Farrelly, Jochanan Aronowicz, Michael Wu, Marc W. Kirschner, Rachael P. Norris, John C. Gerhart, Institut de Biologie du Développement de Marseille (IBDM), Aix Marseille Université (AMU)-Collège de France (CdF (institution))-Centre National de la Recherche Scientifique (CNRS), Department of Biology [Pacific Grove, CA, USA] (Hopkins Marine Station), Stanford University, Department of Organismal Biology and Anatomy [Chicago, IL, USA], University of Chicago, Department of Cell Biology [Farmington, CT, USA], University of Connecticut (UCONN), Department of Natural Sciences [Clearwater, FL, USA], St. Petersburg College [USA], Department of Molecular and Cellular Biology [Berkeley, CA, USA], Center for Systems Biology [Boston, MA, USA], Harvard Medical School [Boston] (HMS)-Massachusetts General Hospital [Boston], and Poulain, Sébastien

Subjects

0301 basic medicine, Frizzled, Embryology, [SDV]Life Sciences [q-bio], Ectoderm, 0302 clinical medicine, Blastulas, Cell Signaling, Homeostasis, Biology (General), Hox gene, Wnt Signaling Pathway, WNT Signaling Cascade, Data Management, biology, General Neuroscience, Wnt signaling pathway, Genes, Homeobox, Eukaryota, Gene Expression Regulation, Developmental, Blastula, Signaling Cascades, Cell biology, [SDV] Life Sciences [q-bio], medicine.anatomical_structure, Vertebrates, General Agricultural and Biological Sciences, Research Article, Signal Transduction, Computer and Information Sciences, QH301-705.5, Embryonic Development, Hemichordate, Gastrulas, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, medicine, Animals, Cell Lineage, Axis specification, Taxonomy, Body Patterning, Hemichordata, General Immunology and Microbiology, Embryos, Organisms, Acorn Worms, Biology and Life Sciences, Biological Transport, Polychaeta, Cell Biology, Planarians, biology.organism_classification, Frizzled Receptors, Gastrulation, 030104 developmental biology, Animal Taxonomy, Zoology, 030217 neurology & neurosurgery, Developmental Biology

Abstract

The Wnt family of secreted proteins has been proposed to play a conserved role in early specification of the bilaterian anteroposterior (A/P) axis. This hypothesis is based predominantly on data from vertebrate embryogenesis as well as planarian regeneration and homeostasis, indicating that canonical Wnt (cWnt) signaling endows cells with positional information along the A/P axis. Outside of these phyla, there is strong support for a conserved role of cWnt signaling in the repression of anterior fates, but little comparative support for a conserved role in promotion of posterior fates. We further test the hypothesis by investigating the role of cWnt signaling during early patterning along the A/P axis of the hemichordate Saccoglossus kowalevskii. We have cloned and investigated the expression of the complete Wnt ligand and Frizzled receptor complement of S. kowalevskii during early development along with many secreted Wnt modifiers. Eleven of the 13 Wnt ligands are ectodermally expressed in overlapping domains, predominantly in the posterior, and Wnt antagonists are localized predominantly to the anterior ectoderm in a pattern reminiscent of their distribution in vertebrate embryos. Overexpression and knockdown experiments, in combination with embryological manipulations, establish the importance of cWnt signaling for repression of anterior fates and activation of mid-axial ectodermal fates during the early development of S. kowalevskii. However, surprisingly, terminal posterior fates, defined by posterior Hox genes, are unresponsive to manipulation of cWnt levels during the early establishment of the A/P axis at late blastula and early gastrula. We establish experimental support for a conserved role of Wnt signaling in the early specification of the A/P axis during deuterostome body plan diversification, and further build support for an ancestral role of this pathway in early evolution of the bilaterian A/P axis. We find strong support for a role of cWnt in suppression of anterior fates and promotion of mid-axial fates, but we find no evidence that cWnt signaling plays a role in the early specification of the most posterior axial fates in S. kowalevskii. This posterior autonomy may be a conserved feature of early deuterostome axis specification., Author summary The anteroposterior (A/P) axis is a conserved feature of bilateral animals and is defined in the anterior by a head and in the posterior by a trunk. The secreted family of Wnt proteins and their antagonists play a conserved role in setting up this axis during early development in many bilaterians. The widely accepted model for the role of Wnt signalling in A/P axis specification is by the establishment of a simple activity gradient whereby high levels of Wnt lead to posterior fates and low levels to anterior fates. In this study we further test this model, examining the role of Wnt signaling in the acorn worm, a representative of hemichordates that belongs to the superphylum Deuterostomia along with chordates. We find strong evidence supporting the hypotheses that Wnt signaling represses anterior fates and promotes more caudal fates in the ectoderm, in a similar way to central nervous system development in vertebrates However, we find that the most posterior territory is established independently of Wnt signalling, which is inconsistent with the prevailing model of Wnt function in A/P patterning. We conclude that these data are not inconsistent with vertebrate patterning data and may represent a conserved feature of deuterostome axis patterning.

Published

2018

35. Hemichordate genomes and deuterostome origins

Author

Shannon Dugan, Oleg Simakov, Ryo Koyanagi, Andrew Cree, Fuki Gyoja, Nicholas H. Putnam, Asao Fujiyama, Miyuki Kanda, Michael Holder, Geoffrey Okwuonu, Lynne V. Nazareth, Atsuko Sato, Christopher B. Cameron, Christopher J. Lowe, Jens H. Fritzenwanker, Yi Chih Chen, Therese Mitros, Paul Gonzalez, Daniel S. Rokhsar, Jireh Santibanez, Donna M. Muzny, Rui Chen, Kenneth W. Baughman, Jessen V. Bredeson, Shinichi Yamasaki, Hiroki Goto, Noriyuki Satoh, Nana Arakaki, Shalini N. Jhangiani, Richard A. Gibbs, Kanako Hisata, Takeshi Kawashima, Jia-Xing Yue, Jiaxin Qu, Donna Morton, Huyen Dinh, Christie Kovar, Jeremy Schmutz, Lora Lewis, Sandra L. Lee, Leonid Peshkin, Jerry Jenkins, Judith Levine, Stephen Richards, Kunifumi Tagawa, Kim C. Worley, John C. Gerhart, Robert Freeman, Manabu Fujie, Michael Wu, Yan Ding, Jr-Kai Yu, Marc W. Kirschner, Tom Humphreys, Ferdinand Marlétaz, Akane Sasaki, Andrew Gillis, Ariel M. Pani, Tomoe Hikosaka-Katayama, Eiichi Shoguchi, Yi-Hsien Su, Simakov, Oleg [0000-0002-3585-4511], Marlétaz, Ferdinand [0000-0001-8124-4266], Koyanagi, Ryo [0000-0002-9694-0288], Bredeson, Jessen [0000-0001-5489-8512], Yue, Jia-Xing [0000-0002-2122-9221], Fritzenwanker, Jens H [0000-0002-5201-4100], Richards, Stephen [0000-0001-8959-5466], Gillis, Andrew [0000-0003-2062-3777], Putnam, Nicholas H [0000-0002-1315-782X], Tagawa, Kunifumi [0000-0001-5634-9373], Worley, Kim C [0000-0002-0282-1000], Lowe, Christopher J [0000-0002-7789-8643], Rokhsar, Daniel S [0000-0002-8704-2224], and Apollo - University of Cambridge Repository

Subjects

0106 biological sciences, Evolution, General Science & Technology, Hemichordate, Synteny, 010603 evolutionary biology, 01 natural sciences, Article, Conserved sequence, Evolution, Molecular, 03 medical and health sciences, Chordata, Nonvertebrate, Transforming Growth Factor beta, Phylogenetics, Genetics, Animals, 14. Life underwater, Chordata, Phylogeny, Conserved Sequence, 030304 developmental biology, Comparative genomics, 0303 health sciences, Genome, Multidisciplinary, Deuterostome, biology, Phylum, Human Genome, Molecular, biology.organism_classification, Nonvertebrate, Multigene Family, Evolutionary developmental biology, Generic health relevance, Echinodermata, Signal Transduction

Abstract

Acorn worms, also known as enteropneust (literally, 'gut-breathing') hemichordates, are marine invertebrates that share features with echinoderms and chordates. Together, these three phyla comprise the deuterostomes. Here we report the draft genome sequences of two acorn worms, Saccoglossus kowalevskii and Ptychodera flava. By comparing them with diverse bilaterian genomes, we identify shared traits that were probably inherited from the last common deuterostome ancestor, and then explore evolutionary trajectories leading from this ancestor to hemichordates, echinoderms and chordates. The hemichordate genomes exhibit extensive conserved synteny with amphioxus and other bilaterians, and deeply conserved non-coding sequences that are candidates for conserved gene-regulatory elements. Notably, hemichordates possess a deuterostome-specific genomic cluster of four ordered transcription factor genes, the expression of which is associated with the development of pharyngeal 'gill' slits, the foremost morphological innovation of early deuterostomes, and is probably central to their filter-feeding lifestyle. Comparative analysis reveals numerous deuterostome-specific gene novelties, including genes found in deuterostomes and marine microbes, but not other animals. The putative functions of these genes can be linked to physiological, metabolic and developmental specializations of the filter-feeding ancestor.

Published

2015

36. The deuterostome context of chordate origins

Author

D. Nathaniel Clarke, Daniel Meulemans Medeiros, Christopher J. Lowe, Daniel S. Rokhsar, and John C. Gerhart

Subjects

Gills, Multidisciplinary, Deuterostome, biology, Phylum, Endoderm, Zoology, Vertebrate, Chordate, Morphology (biology), Context (language use), biology.organism_classification, Mesoderm, Evolutionary biology, Embryology, biology.animal, Animals, Identification (biology), Chordata, Phylogeny, Body Patterning

Abstract

Our understanding of vertebrate origins is powerfully informed by comparative morphology, embryology and genomics of chordates, hemichordates and echinoderms, which together make up the deuterostome clade. Striking body-plan differences among these phyla have historically hindered the identification of ancestral morphological features, but recent progress in molecular genetics and embryology has revealed deep similarities in body-axis formation and organization across deuterostomes, at stages before morphological differences develop. These developmental genetic features, along with robust support of pharyngeal gill slits as a shared deuterostome character, provide the foundation for the emergence of chordates.

Published

2015

37. Pharmaceuticals and Personal Care Products in Municipal Wastewater and the Marine Receiving Environment Near Victoria Canada

Author

Christopher J. Lowe, Jeremy Krogh, and Shirley Lyons

Subjects

PPCP, lcsh:QH1-199.5, 010504 meteorology & atmospheric sciences, Triclocarban, Sewage, Ocean Engineering, lcsh:General. Including nature conservation, geographical distribution, 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Environmental impact of pharmaceuticals and personal care products, chemistry.chemical_compound, sewage, lcsh:Science, 0105 earth and related environmental sciences, Water Science and Technology, Victoria BC, Global and Planetary Change, business.industry, Outfall, benthic biota, Contamination, Triclosan, mussels, sediment, chemistry, Wastewater, Environmental chemistry, Environmental science, lcsh:Q, Sewage treatment, business

Abstract

Concerns over the fate of pharmaceuticals and personal care products (PPCP) within the environment have been growing with the advent of more precise analytical methods. The discharge of municipal wastewater has been identified as a significant source of these contaminants, particularly where wastewater treatment is minimal. Here we present results from a comprehensive monitoring regime located around Victoria, BC, Canada. Samples were collected between 2009 and 2016 from a variety of sources including marine water, sediment and biota adjacent to two major untreated sewage outfalls, as well as the sewage itself. PPCP concentrations within the untreated sewage were high, and the sediment surrounding the outfalls showed corresponding contamination. However, this contamination dropped quickly with distance from the outfall such that by 800 m distance most PPCPs were below detection limits. Tissue samples of resident Northern Horse mussels (Modiolus modiolus) collected adjacent to one of the major sewage outfalls showed high single sample concentrations of the antimicrobial triclosan (317 ng g−1 dry weight), the antibiotic ciprofloxacin (176 ng g−1 dry weight), as well as the antidepressant sertraline (84.1 ng g−1 dry weight). Reference stations from around the region showed very low concentrations of contamination with almost all PPCP concentrations being below detection limits. Within the sewage, concentrations were largely stable overtime, with the exception of triclosan and triclocarban which both showed declines over the study period.

Published

2017

38. USING BIVALVE LIVE-DEAD MISMATCH TO EVALUATE THE FOOTPRINT OF MUNICIPAL WASTEWATER IN MARINE WATERS, VICTORIA, BRITISH COLUMBIA

Author

Eva Haraldsdottir, Caitlin A. Meadows, David Vishny, Shirley Lyons, Christopher J. Lowe, Kenzo Esquivel, Susan M. Kidwell, and Tara A. Macdonald

Subjects

Footprint (electronics), Wastewater, Environmental protection, Environmental science

Published

2017

39. On a possible evolutionary link of the stomochord of hemichordates to pharyngeal organs of chordates

Author

John C. Gerhart, Kanako Hisata, Christopher J. Lowe, Takeshi Kawashima, Marc W. Kirschner, Jr-Kai Yu, Noriyuki Satoh, Michio Ogasawara, Yi-Hsien Su, Hiroki Takahashi, and Kunifumi Tagawa

Subjects

Brachyury, animal structures, biology, Stomochord, fungi, Chordate, Cell Biology, Anatomy, Hemichordate, biology.organism_classification, Notochord formation, Endocrinology, medicine.anatomical_structure, embryonic structures, Notochord, Genetics, medicine, Acorn worm, Endostyle

Abstract

As a group closely related to chordates, hemichordate acorn worms are in a key phylogenic position for addressing hypotheses of chordate origins. The stomochord of acorn worms is an anterior outgrowth of the pharynx endoderm into the proboscis. In 1886 Bateson proposed homology of this organ to the chordate notochord, crowning this animal group "hemichordates." Although this proposal has been debated for over a century, the question still remains unresolved. Here we review recent progress related to this question. First, the developmental mode of the stomochord completely differs from that of the notochord. Second, comparison of expression profiles of genes including Brachyury, a key regulator of notochord formation in chordates, does not support the stomochord/notochord homology. Third, FoxE that is expressed in the stomochord-forming region in acorn worm juveniles is expressed in the club-shaped gland and in the endostyle of amphioxus, in the endostyle of ascidians, and in the thyroid gland of vertebrates. Based on these findings, together with the anterior endodermal location of the stomochord, we propose that the stomochord has evolutionary relatedness to chordate organs deriving from the anterior pharynx rather than to the notochord.

Published

2014

40. G-Quadruplex DNA as a Molecular Target for Induced Synthetic Lethality in Cancer Cells

Author

Ben-Fillippo Krippendorff, Carlos Caldas, Christopher J. Lowe, Keith I.E. McLuckie, Marco Di Antonio, David Tannahill, Shankar Balasubramanian, Jian Xian, and Heather Zecchini

Subjects

DNA repair, Cell Survival, Morpholines, Antineoplastic Agents, Synthetic lethality, medicine.disease_cause, Biochemistry, Catalysis, chemistry.chemical_compound, Structure-Activity Relationship, Colloid and Surface Chemistry, Cell Line, Tumor, Neoplasms, medicine, Humans, Picolinic Acids, Cell Proliferation, BRCA2 Protein, Mutation, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Communication, DNA Breaks, General Chemistry, DNA, Neoplasm, DNA repair protein XRCC4, Molecular biology, Cell biology, Non-homologous end joining, G-Quadruplexes, Chromones, Cancer cell, Aminoquinolines, Drug Screening Assays, Antitumor, DNA

Abstract

Synthetic lethality is a genetic concept in which cell death is induced by the combination of mutations in two sensitive genes, while mutation of either gene alone is not sufficient to affect cell survival. Synthetic lethality can also be achieved "chemically" by combination of drug-like molecules targeting distinct but cooperative pathways. Previously, we reported that the small molecule pyridostatin (PDS) stabilizes G-quadruplexes (G4s) in cells and elicits a DNA damage response by causing the formation of DNA double strand breaks (DSB). Cell death mediated by ligand-induced G4 stabilization can be potentiated in cells deficient in DNA damage repair genes. Here, we demonstrate that PDS acts synergistically both with NU7441, an inhibitor of the DNA-PK kinase crucial for nonhomologous end joining repair of DNA DSBs, and BRCA2-deficient cells that are genetically impaired in homologous recombination-mediated DSB repair. G4 targeting ligands have potential as cancer therapeutic agents, acting synergistically with inhibition or mutation of the DNA damage repair machinery.

Published

2013

41. The Adult Body Plan of Indirect Developing Hemichordates Develops by Adding a Hox-Patterned Trunk to an Anterior Larval Territory

Author

Christopher J. Lowe, Paul Gonzalez, and Kevin R. Uhlinger

Subjects

0301 basic medicine, animal structures, media_common.quotation_subject, Ectoderm, Hemichordate, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Chordata, Nonvertebrate, medicine, Morphogenesis, Animals, Metamorphosis, Hox gene, media_common, Body Patterning, Larva, Deuterostome, biology, Phylum, fungi, Genes, Homeobox, Gene Expression Regulation, Developmental, Anatomy, biology.organism_classification, Biological Evolution, 030104 developmental biology, Body plan, medicine.anatomical_structure, Evolutionary biology, General Agricultural and Biological Sciences, Transcription Factors

Abstract

Summary Many animals are indirect developers with distinct larval and adult body plans [1]. The molecular basis of differences between larval and adult forms is often poorly understood, adding a level of uncertainty to comparative developmental studies that use data from both indirect and direct developers. Here we compare the larval and adult body plans of an indirect developing hemichordate, Schizocardium californicum [2]. We describe the expression of 27 transcription factors with conserved roles in deuterostome ectodermal anteroposterior (AP) patterning in developing embryos, tornaria larvae, and post-metamorphic juveniles and show that the tornaria larva of S. californicum is transcriptionally similar to a truncated version of the adult. The larval ectoderm has an anterior molecular signature, while most of the trunk, defined by the expression of hox1 – 7 , is absent. Posterior ectodermal activation of Hox is initiated in the late larva prior to metamorphosis, in preparation for the transition to the adult form, in which the AP axis converges on a molecular architecture similar to that of the direct developing hemichordate Saccoglossus kowalevskii . These results identify a molecular correlate of a major difference in body plan between hemichordate larval and adult forms and confirm the hypothesis that deuterostome larvae are "swimming heads" [3]. This will allow future comparative studies with hemichordates to take into account molecular differences caused by early life history evolution within the phylum. Additionally, comparisons with other phyla suggest that a delay in trunk development is a feature of indirect development shared across distantly related phyla.

Published

2016

42. PBDE and PCB accumulation in benthos near marine wastewater outfalls: The role of sediment organic carbon

Author

Christopher J. Lowe, Pamela M. Dinn, Albert van Roodselaar, Robie W. Macdonald, Michael J. Whiticar, Peter S. Ross, and Sophia C. Johannessen

Subjects

Aquatic Organisms, Geologic Sediments, endocrine system, Victoria, Health, Toxicology and Mutagenesis, Wastewater, Toxicology, Waste Disposal, Fluid, Polybrominated diphenyl ethers, Benthos, Halogenated Diphenyl Ethers, Water Pollution, Chemical, Animals, Water pollution, reproductive and urinary physiology, Total organic carbon, Sediment, General Medicine, Invertebrates, Polychlorinated Biphenyls, Pollution, Carbon, Congener, Benthic zone, Environmental chemistry, Environmental science, Water Pollutants, Chemical, Environmental Monitoring, Waste disposal

Abstract

Polybrominated diphenyl ethers (PBDEs) and polychlorinated biphenyls (PCBs) were measured in sediments and benthic invertebrates near submarine municipal outfalls in Victoria and Vancouver, B.C., Canada, two areas with contrasting receiving environments. PBDE concentrations in wastewater exceeded those of the legacy PCBs by eight times at Vancouver and 35 times at Victoria. Total PBDE concentrations in benthic invertebrates were higher near Vancouver than Victoria, despite lower concentrations in sediments, and correlated with organic carbon-normalized concentrations in sediment. Principal Components Analysis indicated uptake of individual PBDE congeners was determined by sediment properties (organic carbon, grain size), while PCB congener uptake was governed by physico-chemical properties (octanol-water partitioning coefficient). Results suggest the utility of sediment quality guidelines for PBDEs and likely PCBs benefit if based on organic carbon-normalized concentrations. Also, where enhanced wastewater treatment increases the PBDEs to particulate organic carbon ratio in effluent, nearfield benthic invertebrates may face increased PBDE accumulation.

Published

2012

43. Ancient deuterostome origins of vertebrate brain signalling centres

Author

Elizabeth A. Grove, Ariel M. Pani, Stavroula Assimacopoulos, Christopher J. Lowe, Erin E. Mullarkey, and Jochanan Aronowicz

Subjects

animal structures, Body Patterning, Zoology, Ectoderm, Chordate, Hemichordate, Mice, biology.animal, medicine, Animals, Hedgehog Proteins, Chordata, Wnt Signaling Pathway, Multidisciplinary, Deuterostome, biology, Brain, Vertebrate, biology.organism_classification, Biological Evolution, Fibroblast Growth Factors, medicine.anatomical_structure, Evolutionary biology, Vertebrates, embryonic structures, Zona limitans intrathalamica, Developmental biology, Signal Transduction

Abstract

Neuroectodermal signalling centres induce and pattern many novel vertebrate brain structures but are absent, or divergent, in invertebrate chordates. This has led to the idea that signalling-centre genetic programs were first assembled in stem vertebrates and potentially drove morphological innovations of the brain. However, this scenario presumes that extant cephalochordates accurately represent ancestral chordate characters, which has not been tested using close chordate outgroups. Here we report that genetic programs homologous to three vertebrate signalling centres-the anterior neural ridge, zona limitans intrathalamica and isthmic organizer-are present in the hemichordate Saccoglossus kowalevskii. Fgf8/17/18 (a single gene homologous to vertebrate Fgf8, Fgf17 and Fgf18), sfrp1/5, hh and wnt1 are expressed in vertebrate-like arrangements in hemichordate ectoderm, and homologous genetic mechanisms regulate ectodermal patterning in both animals. We propose that these genetic programs were components of an unexpectedly complex, ancient genetic regulatory scaffold for deuterostome body patterning that degenerated in amphioxus and ascidians, but was retained to pattern divergent structures in hemichordates and vertebrates.

Published

2012

44. Relationship between mRNA biomarker candidates and location near a marine municipal wastewater outfall in the benthic indicator species Modiolus modiolus (L.)

Author

Marek J. Kobylarz, Caren C. Helbing, Lizanne M. Meloche, Christopher J. Lowe, Nik Veldhoen, and Adrian M.H. deBruyn

Subjects

Health, Toxicology and Mutagenesis, Population, Modiolus (genus), Aquatic Science, Waste Disposal, Fluid, Abundance (ecology), Animals, HSP70 Heat-Shock Proteins, Seawater, RNA, Messenger, Cities, education, education.field_of_study, Norepinephrine Plasma Membrane Transport Proteins, biology, Outfall, Mussel, Catalase, biology.organism_classification, Benthic zone, Environmental chemistry, Indicator species, Mytilidae, ATP-Binding Cassette Transporters, Modiolus modiolus, Biomarkers, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The deep-sea horse mussel Modiolus modiolus (L.) is a sentinel bivalve species used for the assessment of potential biological exposure to anthropogenic contaminants in benthic environments. Using a combination of endpoints that included gross biological metrics, reproductive status, tissue contaminant load, and mRNA abundance profiles, we characterized variation in the local M. modiolus population situated in different spatial zones relative to a municipal wastewater outfall. Significant differences were observed in reproductive indicators, growth parameters, and abundance of four specific mRNA transcripts representative of stress response or membrane transport ( CAT , NET/SCF6 , ABCA4 and HSP70 ) in adductor muscle tissue of animals adjacent to the wastewater outfall. Concentrations of metals and organic chemicals in M. modiolus tissue were generally highest directly at the outfall site with much lower levels at 100–800 m from the outfall. This general pattern did not match the mRNA profiles. HSP70 and ABCA4 mRNA showed increased abundance in all regions adjacent to the municipal outfall compared to the reference site. One site group located within 100–200 m south/south-easterly of the outfall had increased levels of all four transcripts. Some mRNAs showed significant correlations with nickel, arsenic, lead, selenium, copper, and one of thirteen polycyclic aromatic hydrocarbons measured (dibenzo(a,h)-anthracene). Three mRNAs ( CAT , NET/SCF6 , and ABCA4 ) were negatively correlated with bis(2-ethylhexyl)phthalate. The data suggest that these benthic organisms are exhibiting biological responses to the outfall and support an alternate interpretation regarding dispersal of contaminants. The potential effects of emerging chemicals of concern entering the receiving environment merits further assessment.

Published

2011

45. β-Catenin specifies the endomesoderm and defines the posterior organizer of the hemichordate Saccoglossus kowalevskii

Author

Sébastien Darras, Christopher J. Lowe, Marc W. Kirschner, John C. Gerhart, and Mark Terasaki

Subjects

animal structures, Zygote, Polarity in embryogenesis, Ectoderm, Germ layer, Hemichordate, Mesoderm, Endomesoderm, medicine, Animals, Chordata, Molecular Biology, Phylogeny, beta Catenin, Research Articles, Body Patterning, Deuterostome, biology, Endoderm, Organizers, Embryonic, Anatomy, biology.organism_classification, Cell biology, medicine.anatomical_structure, embryonic structures, Protostome, Developmental Biology

Abstract

The canonical Wnt/β-catenin pathway is a key regulator of body plan organization and axis formation in metazoans, being involved in germ layer specification, posterior growth and patterning of the anteroposterior axis. Results from animals spanning a wide phylogenetic range suggest that a unifying function of β-catenin in metazoans is to define the posterior/vegetal part of the embryo. Although the specification of vegetal territories (endoderm) by β-catenin has been demonstrated in distantly related animals (cnidarians, a protostome, echinoderms and ascidians), the definition of the posterior part of the embryo is well supported only for vertebrates and planarians. To gain insights into β-catenin functions during deuterostome evolution, we have studied the early development of the direct developing hemichordate Saccoglossus kowalevskii. We show that the zygote is polarized after fertilization along the animal-vegetal axis by cytoplasmic rearrangements resembling the ascidian vegetal contraction. This early asymmetry is translated into nuclear accumulation of β-catenin at the vegetal pole, which is necessary and sufficient to specify endomesoderm. We show that endomesoderm specification is crucial for anteroposterior axis establishment in the ectoderm. The endomesoderm secretes as yet unidentified signals that posteriorize the ectoderm, which would otherwise adopt an anterior fate. Our results point to a conserved function at the base of deuterostomes for β-catenin in germ layer specification and to a causal link in the definition of the posterior part of the embryonic ectoderm by way of activating posteriorizing endomesodermal factors. Consequently, the definition of the vegetal and the posterior regions of the embryo by β-catenin should be distinguished and carefully re-examined.

Published

2011

46. Co-option of an anteroposterior head axis patterning system for proximodistal patterning of appendages in early bilaterian evolution

Author

William McGinnis, John C. Gerhart, Derek Lemons, Christopher J. Lowe, and Jens H. Fritzenwanker

Subjects

Body Patterning, Head (linguistics), Molecular Sequence Data, Oligonucleotides, Genes, Insect, btd/Sp8, Hemichordate, Models, Biological, Article, hth/Meis, Dll/Dlx, 03 medical and health sciences, 0302 clinical medicine, Anteroposterior neurectoderm patterning, Animals, Animal body, Chordata, Molecular Biology, In Situ Hybridization, 030304 developmental biology, Appendage, Neural Plate, 0303 health sciences, biology, Proximodistal appendage patterning, Gene Expression Regulation, Developmental, Extremities, Cell Biology, Anatomy, biology.organism_classification, Biological Evolution, Drosophila melanogaster, dac/Dach, Neural plate, Developmental biology, Genetic co-option, 030217 neurology & neurosurgery, Developmental Biology

Abstract

The enormous diversity of extant animal forms is a testament to the power of evolution, and much of this diversity has been achieved through the emergence of novel morphological traits. The origin of novel morphological traits is an extremely important issue in biology, and a frequent source of this novelty is co-option of pre-existing genetic systems for new purposes (Carroll et al., 2008). Appendages, such as limbs, fins and antennae, are structures common to many animal body plans which must have arisen at least once, and probably multiple times, in lineages which lacked appendages. We provide evidence that appendage proximodistal patterning genes are expressed in similar registers in the anterior embryonic neurectoderm of Drosophila melanogaster and Saccoglossus kowalevskii (a hemichordate). These results, in concert with existing expression data from a variety of other animals suggest that a pre-existing genetic system for anteroposterior head patterning was co-opted for patterning of the proximodistal axis of appendages of bilaterian animals.

Published

2010

47. The backbone begins: a spine-tingling story

Author

Christopher J. Lowe

Subjects

Spine (zoology), Multidisciplinary, History, Art history, Tingling

Abstract

Chris Lowe lauds a study of vertebrates that brings us up to date with a shifting field. Chris Lowe lauds a study of vertebrates that brings us up to date with a shifting field.

Published

2018

48. Diversification of the expression patterns and developmental functions of the dishevelled gene family during chordate evolution

Author

Robbie D. Bayly, Seema Agarwala, Ryan S. Gray, Christopher J. Lowe, Stephen A. Green, and John B. Wallingford

Subjects

Transcription, Genetic, Dishevelled Proteins, Xenopus, Chordate, Chick Embryo, Xenopus Proteins, Article, Evolution, Molecular, Mice, Xenopus laevis, Species Specificity, medicine, Animals, Gene family, Chordata, In Situ Hybridization, Phylogeny, Adaptor Proteins, Signal Transducing, DNA Primers, Genetics, chemistry.chemical_classification, Regulation of gene expression, Base Sequence, biology, Wnt signaling pathway, Gene Expression Regulation, Developmental, Neural crest, Phosphoproteins, biology.organism_classification, Dishevelled, Cell biology, Somite, medicine.anatomical_structure, Somites, chemistry, Neural Crest, Multigene Family, Developmental Biology

Abstract

Dishevelled (Dvl) proteins are key transducers of Wnt signaling encoded by members of a multi-gene family in vertebrates. We report here the divergent, tissue-specific expression patterns for all three Dvl genes in Xenopus embryos, which contrast dramatically with their expression patterns in mice. Moreover, we find that the expression patterns of Dvl genes in the chick diverge significantly from those of Xenopus. In addition, in hemichordates, an outgroup to chordates, we find that the one Dvl gene is dynamically expressed in a tissue-specific manner. Using knockdowns, we find that Dvl1 and Dvl2 are required for early neural crest specification and for somite segmentation in Xenopus. Most strikingly, we report a novel role for Dvl3 in the maintenance of gene expression in muscle and in the development of the Xenopus sclerotome. These data demonstrate that the expression patterns and developmental functions of specific Dvl genes have diverged significantly during chordate evolution.

Published

2009

49. Centralization of the Deuterostome Nervous System Predates Chordates

Author

Zoubida Chettouh, Marc Nomaksteinsky, Héloïse D. Dufour, Jean-François Brunet, Eric Röttinger, Mark Q. Martindale, Christopher J. Lowe, Institut de biologie de l'Ecole Normale Supérieure (IBENS), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Institut de Recherche sur le Cancer et le Vieillissement (IRCAN), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), The Whitney Laboratory for Marine Bioscience [St. Augustine, FL, USA], and University of Florida [Gainesville] (UF)

Subjects

Central Nervous System, Nervous system, EVO_ECOL, Molecular Sequence Data, Nerve Tissue Proteins, DEVBIO, Chordate, Hemichordate, Hawaii, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, medicine, Animals, Cloning, Molecular, Ambulacraria, Chordata, [SDV.BDD]Life Sciences [q-bio]/Development Biology, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 0303 health sciences, Deuterostome, Agricultural and Biological Sciences(all), Base Sequence, biology, Biochemistry, Genetics and Molecular Biology(all), Neural tube, Sequence Analysis, DNA, Anatomy, biology.organism_classification, Biological Evolution, Invertebrates, Anatomy, Comparative, medicine.anatomical_structure, Ventral nerve cord, Peripheral nervous system, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Transcription Factors

Abstract

SummaryThe origin of the chordate central nervous system (CNS) is unknown. One theory is that a CNS was present in the first bilaterian and that it gave rise to both the ventral cord of protostomes and the dorsal cord of deuterostomes (reviewed in [1]). Another theory (reviewed in [2]) proposes that the chordate CNS arose by a dramatic process of dorsalization and internalization from a diffuse nerve net coextensive with the skin of the animal, such as enteropneust worms (Hemichordata, Ambulacraria) are supposed to have [3]. We show here that juvenile and adult enteropneust worms in fact have a bona fide CNS, i.e., dense agglomerations of neurons associated with a neuropil, forming two cords, ventral and dorsal. The latter is internalized in the collar as a chordate-like neural tube. Contrary to previous assumptions, the greater part of the adult enteropneust skin is nonneural, although elements of the peripheral nervous system (PNS) are found there. We use molecular markers to show that several neuronal types are anatomically segregated in the CNS and PNS. These neuroanatomical features, whatever their homologies with the chordate CNS, imply that nervous system centralization predates the evolutionary separation of chordate and hemichordate lineages.

Published

2009

50. cDNA Sequences for Transcription Factors and Signaling Proteins of the HemichordateSaccoglossus kowalevskii: Efficacy of the Expressed Sequence Tag (EST) Approach for Evolutionary and Developmental Studies of a New Organism

Author

Robert Freeman, Cordonnier-Pratt Mm, Chris Gruber, Wu M, Malcolm A. Smith, Christopher J. Lowe, John C. Gerhart, Nicole Stange-Thomann, Pratt Lh, Eric S. Lander, and Marc W. Kirschner

Subjects

Expressed Sequence Tags, Genetics, clone (Java method), Expressed sequence tag, Contig, Intracellular Signaling Peptides and Proteins, Wnt signaling pathway, Sequence Homology, food and beverages, Sequence Analysis, DNA, Biology, Hemichordate, biology.organism_classification, Open Reading Frames, Complementary DNA, Animals, General Agricultural and Biological Sciences, Hox gene, 3' Untranslated Regions, Transcription factor, Phylogeny, Gene Library, Transcription Factors

Abstract

We describe a collection of expressed sequence tags (ESTs) for Saccoglossus kowalevskii, a direct-developing hemichordate valuable for evolutionary comparisons with chordates. The 202,175 ESTs represent 163,633 arrayed clones carrying cDNAs prepared from embryonic libraries, and they assemble into 13,677 continuous sequences (contigs), leaving 10,896 singletons (excluding mitochondrial sequences). Of the contigs, 53% had significant matches when BLAST was used to query the NCBI databases (or = 10(-10)), as did 51% of the singletons. Contigs most frequently matched sequences from amphioxus (29%), chordates (67%), and deuterostomes (87%). From the clone array, we isolated 400 full-length sequences for transcription factors and signaling proteins of use for evolutionary and developmental studies. The set includes sequences for fox, pax, tbx, hox, and other homeobox-containing factors, and for ligands and receptors of the TGFbeta, Wnt, Hh, Delta/Notch, and RTK pathways. At least 80% of key sequences have been obtained, when judged against gene lists of model organisms. The median length of these cDNAs is 2.3 kb, including 1.05 kb of 3' untranslated region (UTR). Only 30% are entirely matched by single contigs assembled from ESTs. We conclude that an EST collection based on 150,000 clones is a rich source of sequences for molecular developmental work, and that the EST approach is an efficient way to initiate comparative studies of a new organism.

Published

2008