Your search keyword '"Carlson AE"' showing total 65 results

1. Characterization of hyperactive mutations in the renal potassium channel ROMK uncovers unique effects on channel biogenesis and ion conductance.

Author

Nguyen NH, Sheng S, Banerjee A, Guerriero CJ, Chen J, Wang X, Mackie TD, Welling PA, Kleyman TR, Bahar I, Carlson AE, and Brodsky JL

Subjects

Humans, Gain of Function Mutation, Potassium metabolism, Hypertension genetics, Hypertension metabolism, Kidney metabolism, Mutation genetics, HEK293 Cells, Endoplasmic Reticulum metabolism, Ion Transport, Alleles, Potassium Channels, Inwardly Rectifying metabolism, Potassium Channels, Inwardly Rectifying genetics

Abstract

Hypertension affects one billion people worldwide and is the most common risk factor for cardiovascular disease, yet a comprehensive picture of its underlying genetic factors is incomplete. Amongst regulators of blood pressure is the renal outer medullary potassium (ROMK) channel. While select ROMK mutants are prone to premature degradation and lead to disease, heterozygous carriers of some of these same alleles are protected from hypertension. Therefore, we hypothesized that gain-of-function (GoF) ROMK variants which increase potassium flux may predispose people to hypertension. To begin to test this hypothesis, we employed genetic screens and a candidate-based approach to identify six GoF variants in yeast. Subsequent functional assays in higher cells revealed two variant classes. The first group exhibited greater stability in the endoplasmic reticulum, enhanced channel assembly, and/or increased protein at the cell surface. The second group of variants resided in the PIP 2 -binding pocket, and computational modeling coupled with patch-clamp studies demonstrated lower free energy for channel opening and slowed current rundown, consistent with an acquired PIP 2 -activated state. Together, these findings advance our understanding of ROMK structure-function, suggest the existence of hyperactive ROMK alleles in humans, and establish a system to facilitate the development of ROMK-targeted antihypertensives., Competing Interests: Conflict of interest: The authors declare no conflicts of interest.

Published

2024

2. Locking hERG channels into place: Using photoreactive unnatural amino acids to study voltage gating.

Author

Miller JM and Carlson AE

Subjects

Humans, Animals, HEK293 Cells, ERG1 Potassium Channel metabolism, ERG1 Potassium Channel chemistry, Ether-A-Go-Go Potassium Channels metabolism, Ether-A-Go-Go Potassium Channels chemistry, Ion Channel Gating, Amino Acids chemistry, Amino Acids metabolism

Abstract

Competing Interests: Declaration of interests The authors declare no competing interests.

Published

2024

3. Chronic variable stress leads to sex specific gut microbiome alterations in mice.

Author

Kropp DR, Rainville JR, Glover ME, Tsyglakova M, Samanta R, Hage TR, Carlson AE, Clinton SM, and Hodes GE

Abstract

Stress has been implicated in the incidence and severity of psychiatric and gastrointestinal disorders. The immune system is capable of modulating the activity and composition of the gut following stress and vice versa. In this study we sought to examine the sequential relationship between immune signaling and microbiome composition occurring in male and female mice over time using a variable stress paradigm. Tissue was collected prior to, during, and after the stress paradigm from the same mice. Cytokines from plasma and brain were quantified using a multiplexed cytokine assay. Fecal samples were collected at the same timepoints and 16S rRNA amplicon sequencing was performed to determine the relative abundance of microbiota residing in the guts of stressed and control mice. We found sex differences in the response of the gut microbiota to stress following 28 days of chronic variable stress but not 6 days of sub-chronic variable stress. Immune activation was quantified in the nucleus accumbens immediately following Sub-chronic variable when alterations of gut composition had not yet occurred. In both sexes, 28 days of stress induced significant changes in the proportion of Erysipelotrichaceae and Lactobacillaceae , but in opposite directions for male and female mice. Alterations to the gut microbiome in both sexes were associated with changes in cytokines related to eosinophilic immune activity. Our use of an animal stress model reveals the immune mechanisms that may underly changes in gut microbiome composition during and after stress. This study reveals potential drug targets and microbiota of interest for the intervention of stress related conditions., Competing Interests: The authors report no financial or potential conflicts of interest. This manuscript has not previously been published, nor is it under consideration in any other journals., (© 2024 The Authors.)

Published

2024

4. ZP2 cleavage blocks polyspermy by modulating the architecture of the egg coat.

Author

Nishio S, Emori C, Wiseman B, Fahrenkamp D, Dioguardi E, Zamora-Caballero S, Bokhove M, Han L, Stsiapanava A, Algarra B, Lu Y, Kodani M, Bainbridge RE, Komondor KM, Carlson AE, Landreh M, de Sanctis D, Yasumasu S, Ikawa M, and Jovine L

Subjects

Humans, Male, Semen, Spermatozoa chemistry, Spermatozoa metabolism, Zona Pellucida chemistry, Zona Pellucida metabolism, Ovum chemistry, Ovum metabolism, Female, Zona Pellucida Glycoproteins chemistry, Zona Pellucida Glycoproteins metabolism

Abstract

Following the fertilization of an egg by a single sperm, the egg coat or zona pellucida (ZP) hardens and polyspermy is irreversibly blocked. These events are associated with the cleavage of the N-terminal region (NTR) of glycoprotein ZP2, a major subunit of ZP filaments. ZP2 processing is thought to inactivate sperm binding to the ZP, but its molecular consequences and connection with ZP hardening are unknown. Biochemical and structural studies show that cleavage of ZP2 triggers its oligomerization. Moreover, the structure of a native vertebrate egg coat filament, combined with AlphaFold predictions of human ZP polymers, reveals that two protofilaments consisting of type I (ZP3) and type II (ZP1/ZP2/ZP4) components interlock into a left-handed double helix from which the NTRs of type II subunits protrude. Together, these data suggest that oligomerization of cleaved ZP2 NTRs extensively cross-links ZP filaments, rigidifying the egg coat and making it physically impenetrable to sperm., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

5. The SARS coronavirus accessory protein ORF3a rescues potassium conductance in yeast.

Author

Rosenbaum JC and Carlson AE

Abstract

ORF3a is an accessory protein expressed by all human pathogen coronaviruses and is the only accessory protein that strongly affects viral fitness. Its deletion reduces severity in both alpha- and beta-coronaviruses, demonstrating a conserved function across the superfamily. Initially regarded as a non-selective cation channel, ORF3a's function is now disputed. Here, we show that ORF3a from SARS, but not SARS-CoV-2, promotes potassium conductance in a yeast model system commonly used to study potassium channels. ORF3a-mediated potassium conductance is also sensitive to inhibitors, including emodin, carbamazepine, and nifedipine. This model may be used in future studies on ORF3a and related proteins., Competing Interests: The authors declare that there are no conflicts of interest present., (Copyright: © 2024 by the authors.)

Published

2024

6. Hybridization led to a rewired pluripotency network in the allotetraploid Xenopus laevis .

Author

Phelps WA, Hurton MD, Ayers TN, Carlson AE, Rosenbaum JC, and Lee MT

Subjects

Animals, Xenopus laevis genetics, Chromatin, Genome, Gene Expression Regulation, Developmental, Mammals genetics, Zebrafish genetics, Chromosomes

Abstract

After fertilization, maternally contributed factors to the egg initiate the transition to pluripotency to give rise to embryonic stem cells, in large part by activating de novo transcription from the embryonic genome. Diverse mechanisms coordinate this transition across animals, suggesting that pervasive regulatory remodeling has shaped the earliest stages of development. Here, we show that maternal homologs of mammalian pluripotency reprogramming factors OCT4 and SOX2 divergently activate the two subgenomes of Xenopus laevis , an allotetraploid that arose from hybridization of two diploid species ~18 million years ago. Although most genes have been retained as two homeologous copies, we find that a majority of them undergo asymmetric activation in the early embryo. Chromatin accessibility profiling and CUT&RUN for modified histones and transcription factor binding reveal extensive differences in predicted enhancer architecture between the subgenomes, which likely arose through genomic disruptions as a consequence of allotetraploidy. However, comparison with diploid X. tropicalis and zebrafish shows broad conservation of embryonic gene expression levels when divergent homeolog contributions are combined, implying strong selection to maintain dosage in the core vertebrate pluripotency transcriptional program, amid genomic instability following hybridization., Competing Interests: WP, MH, TA, AC, JR, ML No competing interests declared, (© 2023, Phelps et al.)

Published

2023

7. TMEM16A activation for the fast block to polyspermy in the African clawed frog does not require conventional activation of egg PLCs.

Author

Komondor KM, Bainbridge RE, Sharp KG, Iyer AR, Rosenbaum JC, and Carlson AE

Subjects

Animals, Male, Xenopus laevis metabolism, Semen metabolism, Spermatozoa metabolism, Fertilization physiology, Calcium metabolism

Abstract

Fertilization of an egg by more than one sperm, a condition known as polyspermy, leads to gross chromosomal abnormalities and is embryonic lethal for most animals. Consequently, eggs have evolved multiple processes to stop supernumerary sperm from entering the nascent zygote. For external fertilizers, such as frogs and sea urchins, fertilization signals a depolarization of the egg membrane, which serves as the fast block to polyspermy. Sperm can bind to, but will not enter, depolarized eggs. In eggs from the African clawed frog, Xenopus laevis, the fast block depolarization is mediated by the Ca2+-activated Cl- channel TMEM16A. To do so, fertilization activates phospholipase C, which generates IP3 to signal a Ca2+ release from the ER. Currently, the signaling pathway by which fertilization activates PLC during the fast block remains unknown. Here, we sought to uncover this pathway by targeting the canonical activation of the PLC isoforms present in the X. laevis egg: PLCγ and PLCβ. We observed no changes to the fast block in X. laevis eggs inseminated in inhibitors of tyrosine phosphorylation, used to stop activation of PLCγ, or inhibitors of Gαq/11 pathways, used to stop activation of PLCβ. These data suggest that the PLC that signals the fast block depolarization in X. laevis is activated by a novel mechanism., (© 2023 Komondor et al.)

Published

2023

8. Xenopus laevis lack the critical sperm factor PLCζ.

Author

Bainbridge RE, Rosenbaum JC, Sau P, and Carlson AE

Abstract

Fertilization of eggs from the African clawed frog Xenopus laevis is characterized by an increase in cytosolic calcium, a phenomenon that is also observed in other vertebrates such as mammals and birds. During fertilization in mammals and birds, the transfer of the soluble PLCζ from sperm into the egg is thought to trigger the release of calcium from the endoplasmic reticulum (ER). Injecting sperm extracts into eggs reproduces this effect, reinforcing the hypothesis that a sperm factor is responsible for calcium release and egg activation. Remarkably, this occurs even when sperm extracts from X. laevis are injected into mouse eggs, suggesting that mammals and X. laevis share a sperm factor. However, X. laevis lacks an annotated PLCZ1 gene, which encodes the PLCζ enzyme. In this study, we attempted to determine whether sperm from X. laevis express an unannotated PLCZ1 ortholog. We identified PLCZ1 orthologs in 11 amphibian species, including 5 that had not been previously characterized, but did not find any in either X. laevis or the closely related Xenopus tropicalis . Additionally, we performed RNA sequencing on testes obtained from adult X. laevis males and did not identify potential PLCZ1 orthologs in our dataset or in previously collected ones. These findings suggest that PLCZ1 may have been lost in the Xenopus lineage and raise the question of how fertilization triggers calcium release and egg activation in these species., Competing Interests: Competing Interest The authors declare no competing interests.

Published

2023

9. Phosphate position is key in mediating transmembrane ion channel TMEM16A-phosphatidylinositol 4,5-bisphosphate interaction.

Author

Tembo M, Bainbridge RE, Lara-Santos C, Komondor KM, Daskivich GJ, Durrant JD, Rosenbaum JC, and Carlson AE

Subjects

Animals, Calcium metabolism, Chloride Channels metabolism, Xenopus laevis metabolism, Phosphates chemistry, Phosphates metabolism, Phosphatidylinositol 4,5-Diphosphate chemistry, Phosphatidylinositol 4,5-Diphosphate metabolism

Abstract

TransMEMbrane 16A (TMEM16A) is a Ca 2+ -activated Cl - channel that plays critical roles in regulating diverse physiologic processes, including vascular tone, sensory signal transduction, and mucosal secretion. In addition to Ca 2+ , TMEM16A activation requires the membrane lipid phosphatidylinositol 4,5-bisphosphate (PI(4,5)P 2 ). However, the structural determinants mediating this interaction are not clear. Here, we interrogated the parts of the PI(4,5)P 2 head group that mediate its interaction with TMEM16A by using patch- and two-electrode voltage-clamp recordings on oocytes from the African clawed frog Xenopus laevis, which endogenously express TMEM16A channels. During continuous application of Ca 2+ to excised inside-out patches, we found that TMEM16A-conducted currents decayed shortly after patch excision. Following this rundown, we show that the application of a synthetic PI(4,5)P 2 analog produced current recovery. Furthermore, inducible dephosphorylation of PI(4,5)P 2 reduces TMEM16A-conducted currents. Application of PIP 2 analogs with different phosphate orientations yielded distinct amounts of current recovery, and only lipids that include a phosphate at the 4' position effectively recovered TMEM16A currents. Taken together, these findings improve our understanding of how PI(4,5)P 2 binds to and potentiates TMEM16A channels., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

10. The age of the opening of the Ice-Free Corridor and implications for the peopling of the Americas.

Author

Clark J, Carlson AE, Reyes AV, Carlson ECB, Guillaume L, Milne GA, Tarasov L, Caffee M, Wilcken K, and Rood DH

Subjects

Americas, Humans, Archaeology

Abstract

SignificanceThe Ice-Free Corridor (IFC) has long played a key role in hypotheses about the peopling of the Americas. Earlier assessments of its age suggested that the IFC was available for a Clovis-first migration, but subsequent developments now suggest a pre-Clovis occupation of the Americas that occurred before the opening of the IFC, thus supporting a Pacific coastal migration route instead. However, large uncertainties in existing ages from the IFC cannot preclude its availability as a route for the first migrations. Resolving this debate over migration route is important for addressing the questions of when and how the first Americans arrived. We report cosmogenic nuclide exposure ages that show that the final opening of the IFC occurred well after pre-Clovis occupation.

Published

2022

11. Does Engaging Patients with Relevant Education About Long-Term Opioid Use Before Spine Surgery Affect Long-term Opioid Use? A Randomized Controlled Trial.

Author

Rhon DI, Greenlee TA, Gill NW, Carlson AE, Hart AM, Larsen TH, McLelland A, Mayhew RJ, McCafferty RR, and Koppenhaver SL

Subjects

Adult, Cohort Studies, Female, Humans, Middle Aged, Pain, Postoperative diagnosis, Pain, Postoperative drug therapy, Pain, Postoperative prevention & control, Analgesics, Opioid therapeutic use, Opioid-Related Disorders epidemiology, Opioid-Related Disorders prevention & control

Abstract

Study Design: Parallel-arm randomized controlled trial., Objective: To assess the effectiveness of an enhanced video education session highlighting risks of opioid utilization on longterm opioid utilization after spine surgery., Summary of Background Data: Long-term opioid use occurs in more than half of patients undergoing spine surgery and strategies to reduce this use are needed., Methods: Patients undergoing spine surgery at Brooke Army Medical Center between July 2015 and February 2017 were recruited at their preoperative appointment, receiving the singlesession interactive video education or control at that same appointment. Opioid utilization was tracked for the full year after surgery from the Pharmacy Data Transaction Service of the Military Health System Data Repository. Self-reported pain also collected weekly for 1 and at 6months., Results: A total of 120 participants (40 women, 33.3%) with a mean age of 45.9 ± 10.6 years were randomized 1:1 to the enhanced education and usual care control (60 per group). In the year following surgery the cohort had a mean 5.1 (standard deviation [SD] 5.9) unique prescription fills, mean total days' supply was 88.3 (SD 134.9), and mean cumulative morphine milligrams equivalents per participant was 4193.0 (SD 12,187.9) within the year after surgery, with no significant differences in any opioid use measures between groups. Twelve individuals in the standard care group and 13 in the enhanced education group were classified with having long-term opioid utilization., Conclusion: The video education session did not influence opioid use after spine surgery compared to the usual care control. There was no significant difference in individuals classified as long-term opioid users after surgery based on the intervention group. Prior opioid use was a strong predictor of future opioid use in this cohort. Strategies to improve education engagement, understanding, and decision- making continue to be of high importance for mitigating risk of long-term opioid use after spine surgery.Level of Evidence: 1., (Copyright © 2021 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2022

12. Correction to 'Optimized design of antisense oligomers for targeted rRNA depletion'.

Author

Phelps WA, Carlson AE, and Lee MT

Published

2021

13. Magnitude of the 8.2 ka event freshwater forcing based on stable isotope modelling and comparison to future Greenland melting.

Author

Aguiar W, Meissner KJ, Montenegro A, Prado L, Wainer I, Carlson AE, and Mata MM

Abstract

The northern hemisphere experienced an abrupt cold event ~ 8200 years ago (the 8.2 ka event) that was triggered by the release of meltwater into the Labrador Sea, and resulting in a weakening of the poleward oceanic heat transport. Although this event has been considered a possible analogue for future ocean circulation changes due to the projected Greenland Ice Sheet (GIS) melting, large uncertainties in the amount and rate of freshwater released during the 8.2 ka event make such a comparison difficult. In this study, we compare sea surface temperatures and oxygen isotope ratios from 28 isotope-enabled model simulations with 35 paleoproxy records to constrain the meltwater released during the 8.2 ka event. Our results suggest that a combination of 5.3 m of meltwater in sea level rise equivalent (SLR) released over a thousand years, with a short intensification over ~ 130 years (an additional 2.2 m of equivalent SLR) due to routing of the Canadian river discharge, best reproduces the proxy anomalies. Our estimate is of the same order of magnitude as projected future GIS melting rates under the high emission scenario RCP8.5.

Published

2021

14. Actin polymerization is not required for the fast block to polyspermy in the African clawed frog, Xenopus laevis .

Author

Tembo M, Sauer ML, Wisner BW, Beleny DO, Napolitano MA, and Carlson AE

Abstract

Fertilization of an egg by multiple sperm presents one of the earliest and most prevalent obstacles to successful reproduction. Eggs employ multiple mechanisms to prevent sperm entry into the nascent zygote. The fast block to polyspermy uses a depolarization to inhibit sperm entry. For some external fertilizers, fertilization and the fast block require actin polymerization. Here we explored whether the fast block to polyspermy in the external fertilizer, Xenopus laevis , requires actin polymerization. Inseminating in the presence of inhibitor cytochalasin B, here we demonstrate that actin polymerization is not required for the fast block to polyspermy in X. laevis ., (Copyright: © 2021 by the authors.)

Published

2021

15. Optimized design of antisense oligomers for targeted rRNA depletion.

Author

Phelps WA, Carlson AE, and Lee MT

Subjects

Animals, Base Sequence, Female, Gene Expression Profiling methods, Internet, Male, Oligodeoxyribonucleotides, Antisense metabolism, Poly A genetics, Poly A metabolism, RNA metabolism, RNA, Messenger metabolism, RNA, Ribosomal metabolism, Ribonuclease H metabolism, Sequence Analysis, RNA methods, Xenopus laevis embryology, Xenopus laevis genetics, Zebrafish embryology, Zebrafish genetics, Computational Biology methods, Oligodeoxyribonucleotides, Antisense genetics, RNA genetics, RNA, Messenger genetics, RNA, Ribosomal genetics

Abstract

RNA sequencing (RNA-seq) is extensively used to quantify gene expression transcriptome-wide. Although often paired with polyadenylate (poly(A)) selection to enrich for messenger RNA (mRNA), many applications require alternate approaches to counteract the high proportion of ribosomal RNA (rRNA) in total RNA. Recently, digestion using RNaseH and antisense DNA oligomers tiling target rRNAs has emerged as an alternative to commercial rRNA depletion kits. Here, we present a streamlined, more economical RNaseH-mediated rRNA depletion with substantially lower up-front costs, using shorter antisense oligos only sparsely tiled along the target RNA in a 5-min digestion reaction. We introduce a novel Web tool, Oligo-ASST, that simplifies oligo design to target regions with optimal thermodynamic properties, and additionally can generate compact, common oligo pools that simultaneously target divergent RNAs, e.g. across different species. We demonstrate the efficacy of these strategies by generating rRNA-depletion oligos for Xenopus laevis and for zebrafish, which expresses two distinct versions of rRNAs during embryogenesis. The resulting RNA-seq libraries reduce rRNA to <5% of aligned reads, on par with poly(A) selection, and also reveal expression of many non-adenylated RNA species. Oligo-ASST is freely available at https://mtleelab.pitt.edu/oligo to design antisense oligos for any taxon or to target any abundant RNA for depletion., (© The Author(s) 2020. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2021

16. The secrets of success.

Author

Komondor KM and Carlson AE

Subjects

Animals, Female, Fertilization, Male, Mice, Spermatozoa, Calcium Channels, Sperm Capacitation

Abstract

Imaging sperm as they travel through the female reproductive tract has revealed new details about fertilization at the molecular level., Competing Interests: KK, AC No competing interests declared, (© 2020, Komondor and Carlson.)

Published

2020

17. Zinc protection of fertilized eggs is an ancient feature of sexual reproduction in animals.

Author

Wozniak KL, Bainbridge RE, Summerville DW, Tembo M, Phelps WA, Sauer ML, Wisner BW, Czekalski ME, Pasumarthy S, Hanson ML, Linderman MB, Luu CH, Boehm ME, Sanders SM, Buckley KM, Bain DJ, Nicotra ML, Lee MT, and Carlson AE

Subjects

Ambystoma mexicanum, Animals, Female, Hydrozoa, Male, Strongylocentrotus purpuratus, Xenopus laevis, Zebrafish, Fertilization, Oocytes metabolism, Zinc metabolism

Abstract

One of the earliest and most prevalent barriers to successful reproduction is polyspermy, or fertilization of an egg by multiple sperm. To prevent these supernumerary fertilizations, eggs have evolved multiple mechanisms. It has recently been proposed that zinc released by mammalian eggs at fertilization may block additional sperm from entering. Here, we demonstrate that eggs from amphibia and teleost fish also release zinc. Using Xenopus laevis as a model, we document that zinc reversibly blocks fertilization. Finally, we demonstrate that extracellular zinc similarly disrupts early embryonic development in eggs from diverse phyla, including Cnidaria, Echinodermata, and Chordata. Our study reveals that a fundamental strategy protecting human eggs from fertilization by multiple sperm may have evolved more than 650 million years ago., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

18. Ion channels and signaling pathways used in the fast polyspermy block.

Author

Wozniak KL and Carlson AE

Subjects

Animals, Female, Humans, Male, Oocytes metabolism, Spermatozoa metabolism, Zygote metabolism, Cell Membrane metabolism, Ion Channels metabolism, Membrane Potentials physiology, Oocytes ultrastructure, Polyploidy, Signal Transduction physiology, Sperm-Ovum Interactions physiology

Abstract

Fertilization of an egg by multiple sperms, polyspermy, is lethal to most sexually reproducing species. To combat the entry of additional sperm into already fertilized eggs, organisms have developed various polyspermy blocks. One such barrier, the fast polyspermy block, uses a fertilization-activated depolarization of the egg membrane to electrically inhibit supernumerary sperm from entering the egg. The fast block is commonly used by eggs of oviparous animals with external fertilization. In this review, we discuss the history of the fast block discovery, as well as general features shared by all organisms that use this polyspermy block. Given the diversity of habitats of external fertilizers, the fine details of the fast block-signaling pathways differ drastically between species, including the identity of the depolarizing ions. We highlight the known molecular mediators of these signaling pathways in amphibians and echinoderms, with a fine focus on ion channels that signal these fertilization-evoked depolarizations. We also discuss the investigation for a fast polyspermy block in mammals and teleost fish, and we outline potential fast block triggers. Since the first electrical recordings made on eggs in the 1950s, the fields of developmental biology and electrophysiology have substantially matured, and yet we are only now beginning to discern the intricate molecular mechanisms regulating the fast block to polyspermy., (© 2019 Wiley Periodicals, Inc.)

Published

2020

19. Tiny Dancer: EFCAB9 Triggers Sperm Hyperactivation via CatSper.

Author

Bainbridge RE and Carlson AE

Subjects

Animals, Calcium Channels, Humans, Hydrogen-Ion Concentration, Male, Spermatozoa, Calcium, Sperm Motility

Abstract

The Ca 2+ -conducting ion channel, CatSper, is expressed exclusively on the sperm flagellum and regulates sperm motility. A new study (Hwang et al., Cell, 2019) reveals that the pH-sensing and Ca 2+ -binding protein, EFCAB9, is a subunit of the CatSper channel and has a key role in triggering mammalian sperm to change their swimming at fertilization., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

20. Mechanical stimulation activates Drosophila eggs via Trpm channels.

Author

Carlson AE

Subjects

Animals, Calcium, Calcium, Dietary, Larva, Drosophila, TRPM Cation Channels

Abstract

Competing Interests: The author declares no conflict of interest.

Published

2019

21. Consistently dated Atlantic sediment cores over the last 40 thousand years.

Author

Waelbroeck C, Lougheed BC, Vazquez Riveiros N, Missiaen L, Pedro J, Dokken T, Hajdas I, Wacker L, Abbott P, Dumoulin JP, Thil F, Eynaud F, Rossignol L, Fersi W, Albuquerque AL, Arz H, Austin WEN, Came R, Carlson AE, Collins JA, Dennielou B, Desprat S, Dickson A, Elliot M, Farmer C, Giraudeau J, Gottschalk J, Henderiks J, Hughen K, Jung S, Knutz P, Lebreiro S, Lund DC, Lynch-Stieglitz J, Malaizé B, Marchitto T, Martínez-Méndez G, Mollenhauer G, Naughton F, Nave S, Nürnberg D, Oppo D, Peck V, Peeters FJC, Penaud A, Portilho-Ramos RDC, Repschläger J, Roberts J, Rühlemann C, Salgueiro E, Sanchez Goni MF, Schönfeld J, Scussolini P, Skinner LC, Skonieczny C, Thornalley D, Toucanne S, Rooij DV, Vidal L, Voelker AHL, Wary M, Weldeab S, and Ziegler M

Abstract

Rapid changes in ocean circulation and climate have been observed in marine-sediment and ice cores over the last glacial period and deglaciation, highlighting the non-linear character of the climate system and underlining the possibility of rapid climate shifts in response to anthropogenic greenhouse gas forcing. To date, these rapid changes in climate and ocean circulation are still not fully explained. One obstacle hindering progress in our understanding of the interactions between past ocean circulation and climate changes is the difficulty of accurately dating marine cores. Here, we present a set of 92 marine sediment cores from the Atlantic Ocean for which we have established age-depth models that are consistent with the Greenland GICC05 ice core chronology, and computed the associated dating uncertainties, using a new deposition modeling technique. This is the first set of consistently dated marine sediment cores enabling paleoclimate scientists to evaluate leads/lags between circulation and climate changes over vast regions of the Atlantic Ocean. Moreover, this data set is of direct use in paleoclimate modeling studies.

Published

2019

22. Phosphatidylinositol 4,5-bisphosphate (PIP 2 ) and Ca 2+ are both required to open the Cl - channel TMEM16A.

Author

Tembo M, Wozniak KL, Bainbridge RE, and Carlson AE

Subjects

Animals, Chloride Channels genetics, Xenopus laevis, Calcium metabolism, Calcium Signaling, Chloride Channels metabolism, Ion Channel Gating, Membrane Potentials, Phosphatidylinositol 4,5-Diphosphate metabolism

Abstract

Transmembrane member 16A (TMEM16A) is a widely expressed Ca 2+ -activated Cl - channel with various physiological functions ranging from mucosal secretion to regulating smooth muscle contraction. Understanding how TMEM16A controls these physiological processes and how its dysregulation may cause disease requires a detailed understanding of how cellular processes and second messengers alter TMEM16A channel gating. Here we assessed the regulation of TMEM16A gating by recording Ca 2+ -evoked Cl - currents conducted by endogenous TMEM16A channels expressed in Xenopus laevis oocytes, using the inside-out configuration of the patch clamp technique. During continuous application of Ca 2+ , we found that TMEM16A-conducted currents decay shortly after patch excision. Such current rundown is common among channels regulated by phosphatidylinositol 4,5-bisphosphate (PIP 2 ). Thus, we sought to investigate a possible role of PIP 2 in TMEM16A gating. Consistently, synthetic PIP 2 rescued the current after rundown, and the application of PIP 2 modulating agents altered the speed kinetics of TMEM16A current rundown. First, two PIP 2 sequestering agents, neomycin and anti-PIP 2 , applied to the intracellular surface of excised patches sped up TMEM16A current rundown to nearly twice as fast. Conversely, rephosphorylation of phosphatidylinositol (PI) derivatives into PIP 2 using Mg-ATP or inhibiting dephosphorylation of PIP 2 using β-glycerophosphate slowed rundown by nearly 3-fold. Our results reveal that TMEM16A regulation is more complicated than it initially appeared; not only is Ca 2+ necessary to signal TMEM16a opening, but PIP 2 is also required. These findings improve our understanding of how the dysregulation of these pathways may lead to disease and suggest that targeting these pathways could have utility for potential therapies., (© 2019 Tembo et al.)

Published

2019

23. Under pressure: Ano1 mediates pressure sensing in the lymphatic system.

Author

Tembo M and Carlson AE

Subjects

Animals, Anoctamin-1, Mice, Chloride Channels, Lymphatic System

Published

2019

24. PLC and IP 3 -evoked Ca 2+ release initiate the fast block to polyspermy in Xenopus laevis eggs.

Author

Wozniak KL, Tembo M, Phelps WA, Lee MT, and Carlson AE

Subjects

Animals, Female, Inositol 1,4,5-Trisphosphate metabolism, Patch-Clamp Techniques, Xenopus laevis, Calcium metabolism, Endoplasmic Reticulum metabolism, Fertilization, Ovum metabolism, Type C Phospholipases metabolism

Abstract

The prevention of polyspermy is essential for the successful progression of normal embryonic development in most sexually reproducing species. In external fertilizers, the process of fertilization induces a depolarization of the egg's membrane within seconds, which inhibits supernumerary sperm from entering an already-fertilized egg. This fast block requires an increase of intracellular Ca 2+ in the African clawed frog, Xenopus laevis , which in turn activates an efflux of Cl - that depolarizes the cell. Here we seek to identify the source of this intracellular Ca 2+ Using electrophysiology, pharmacology, bioinformatics, and developmental biology, we explore the requirement for both Ca 2+ entry into the egg from the extracellular milieu and Ca 2+ release from an internal store, to mediate fertilization-induced depolarization. We report that although eggs express Ca 2+ -permeant ion channels, blockade of these channels does not alter the fast block. In contrast, insemination of eggs in the presence of Xestospongin C-a potent inhibitor of inositol 1,4,5-trisphosphate (IP 3 )-induced Ca 2+ release from the endoplasmic reticulum (ER)-completely inhibits fertilization-evoked depolarization and increases the incidence of polyspermy. Inhibition of the IP 3 -generating enzyme phospholipase C (PLC) with U73122 similarly prevents fertilization-induced depolarization and increases polyspermy. Together, these results demonstrate that fast polyspermy block after fertilization in X. laevis eggs is mediated by activation of PLC, which increases IP 3 and evokes Ca 2+ release from the ER. This ER-derived Ca 2+ then activates a Cl - channel to induce the fast polyspermy block. The PLC-induced cascade of events represents one of the earliest known signaling pathways initiated by fertilization., (© 2018 Wozniak et al.)

Published

2018

25. The TMEM16A channel mediates the fast polyspermy block in Xenopus laevis .

Author

Wozniak KL, Phelps WA, Tembo M, Lee MT, and Carlson AE

Subjects

Acetamides, Ambystoma mexicanum, Animals, Bestrophins metabolism, Chloride Channels metabolism, Female, Hydrazones, Patch-Clamp Techniques, ortho-Aminobenzoates, Anoctamin-1 metabolism, Fertilization, Ovum metabolism, Xenopus laevis metabolism

Abstract

In externally fertilizing animals, such as sea urchins and frogs, prolonged depolarization of the egg immediately after fertilization inhibits the entry of additional sperm-a phenomenon known as the fast block to polyspermy. In the African clawed frog Xenopus laevis , this depolarization is driven by Ca 2+ -activated Cl - efflux. Although the prominent Ca 2+ -activated Cl - currents generated in immature X. laevis oocytes are mediated by X. laevis transmembrane protein 16a (xTMEM16A) channels, little is known about the channels that contribute to the fast block in mature eggs. Moreover, the gamete undergoes a gross transformation as it develops from an immature oocyte into a fertilization-competent egg. Here, we report the results of our approach to identify the Ca 2+ -activated Cl - channel that triggers the fast block. By querying published proteomic and RNA-sequencing data, we identify two Ca 2+ -activated Cl - channels expressed in fertilization-competent X. laevis eggs: xTMEM16A and X. laevis bestrophin 2A (xBEST2A). By exogenously expressing xTMEM16A and xBEST2A in axolotl cells lacking endogenous Ca 2+ -activated currents, we characterize the effect of inhibitors on currents mediated by these channels. None of the inhibitors tested block xBEST2A currents specifically. However, 2-(4-chloro-2-methylphenoxy)- N -[(2-methoxyphenyl)methylideneamino]-acetamide (Ani9) and N -((4-methoxy)-2-naphthyl)-5-nitroanthranilic acid (MONNA) each reduce xTMEM16A currents by more than 70% while only nominally inhibiting those generated by xBEST2A. Using whole-cell recordings during fertilization, we find that Ani9 and MONNA effectively diminish fertilization-evoked depolarizations. Additionally, these inhibitors lead to increased polyspermy in X. laevis embryos. These results indicate that fertilization activates TMEM16A channels in X. laevis eggs and induces the earliest known event triggered by fertilization: the fast block to polyspermy., (© 2018 Wozniak et al.)

Published

2018

26. Instability of the Northeast Greenland Ice Stream over the last 45,000 years.

Author

Larsen NK, Levy LB, Carlson AE, Buizert C, Olsen J, Strunk A, Bjørk AA, and Skov DS

Abstract

The sensitivity of the Northeast Greenland Ice Stream (NEGIS) to prolonged warm periods is largely unknown and geological records documenting such long-term changes are needed to place current observations in perspective. Here we use cosmogenic surface exposure and radiocarbon ages to determine the magnitude of NEGIS margin fluctuations over the last 45 kyr (thousand years). We find that the NEGIS experienced slow early Holocene ice-margin retreat of 30-40 m a -1 , likely as a result of the buttressing effect of sea-ice or shelf-ice. The NEGIS was ~20-70 km behind its present ice-extent ~41-26 ka and ~7.8-1.2 ka; both periods of high orbital precession index and/or summer temperatures within the projected warming for the end of this century. We show that the NEGIS was smaller than present for approximately half of the last ~45 kyr and is susceptible to subtle changes in climate, which has implications for future stability of this ice stream.

Published

2018

27. Extracellular Ca2+ Is Required for Fertilization in the African Clawed Frog, Xenopus laevis.

Author

Wozniak KL, Mayfield BL, Duray AM, Tembo M, Beleny DO, Napolitano MA, Sauer ML, Wisner BW, and Carlson AE

Subjects

Animals, Chelating Agents chemistry, Female, Male, Sperm-Ovum Interactions, Xenopus laevis embryology, Calcium metabolism, Fertilization, Xenopus laevis physiology

Abstract

Background: The necessity of extracellular Ca2+ for fertilization and early embryonic development in the African clawed frog, Xenopus laevis, is controversial. Ca2+ entry into X. laevis sperm is reportedly required for the acrosome reaction, yet fertilization and embryonic development have been documented to occur in high concentrations of the Ca2+ chelator BAPTA. Here we sought to resolve this controversy., Methodology/principal Finding: Using the appearance of cleavage furrows as an indicator of embryonic development, we found that X. laevis eggs inseminated in a solution lacking added divalent cations developed normally. By contrast, eggs inseminated in millimolar concentrations of BAPTA or EGTA failed to develop. Transferring embryos to varying solutions after sperm addition, we found that extracellular Ca2+ is specifically required for events occurring within the first 30 minutes after sperm addition, but not after. We found that the fluorescently stained sperm were not able to penetrate the envelope of eggs inseminated in high BAPTA, whereas several had penetrated the vitelline envelope of eggs inseminated without a Ca2+ chelator, or with BAPTA and saturating CaCl2. Together these results indicate that fertilization does not occur in high concentrations of Ca2+ chelators. Finally, we found that the jelly coat includes >5 mM of readily diffusible Ca2+., Conclusions/significance: Taken together, these data are consistent with requirement of extracellular Ca2+ for fertilization. Based on our findings, we hypothesize that the jelly coat surrounding the egg acts as a reserve of readily available Ca2+ ions to foster fertilization in changing extracellular milieu., Competing Interests: The authors have declared that no competing interests exist.

Published

2017

28. Apathy and Type 2 Diabetes among American Indians: Exploring the Protective Effects of Traditional Cultural Involvement.

Author

Carlson AE, Aronson BD, Unzen M, Lewis M, Benjamin GJ, and Walls ML

Subjects

Age Factors, Blood Glucose, Cross-Sectional Studies, Female, Humans, Interviews as Topic, Male, Middle Aged, Quality of Life, Sex Factors, Spirituality, Apathy, Cultural Characteristics, Diabetes Mellitus, Type 2 ethnology, Diabetes Mellitus, Type 2 psychology, Indians, North American psychology

Abstract

In this study we examine relationships between traditional cultural factors, apathy, and health-related outcomes among a sample of American Indian adults with type 2 diabetes. Participants completed cross-sectional interviewer-assisted paper and pencil surveys. We tested a proposed model using latent variable path analysis in order to understand the relationships between cultural participation, apathy, frequency of high blood sugar symptoms, and health-related quality of life. The model revealed significant direct effects from cultural participation to apathy, and apathy to both health-related outcomes. No direct effect of cultural participation on either health-related outcome was found; however, cultural participation had a negative indirect effect through apathy on high blood sugar and positive indirect effects on health-related quality of life. This study highlights a potential pathway of cultural involvement to positive diabetes outcomes.

Published

2017

29. The effects of precipitation, river discharge, land use and coastal circulation on water quality in coastal Maine.

Author

Tilburg CE, Jordan LM, Carlson AE, Zeeman SI, and Yund PO

Abstract

Faecal pollution in stormwater, wastewater and direct run-off can carry zoonotic pathogens to streams, rivers and the ocean, reduce water quality, and affect both recreational and commercial fishing areas of the coastal ocean. Typically, the closure of beaches and commercial fishing areas is governed by the testing for the presence of faecal bacteria, which requires an 18-24 h period for sample incubation. As water quality can change during this testing period, the need for accurate and timely predictions of coastal water quality has become acute. In this study, we: (i) examine the relationship between water quality, precipitation and river discharge at several locations within the Gulf of Maine, and (ii) use multiple linear regression models based on readily obtainable hydrometeorological measurements to predict water quality events at five coastal locations. Analysis of a 12 year dataset revealed that high river discharge and/or precipitation events can lead to reduced water quality; however, the use of only these two parameters to predict water quality can result in a number of errors. Analysis of a higher frequency, 2 year study using multiple linear regression models revealed that precipitation, salinity, river discharge, winds, seasonality and coastal circulation correlate with variations in water quality. Although there has been extensive development of regression models for freshwater, this is one of the first attempts to create a mechanistic model to predict water quality in coastal marine waters. Model performance is similar to that of efforts in other regions, which have incorporated models into water resource managers' decisions, indicating that the use of a mechanistic model in coastal Maine is feasible.

Published

2015

30. SEA-LEVEL RISE. Sea-level rise due to polar ice-sheet mass loss during past warm periods.

Author

Dutton A, Carlson AE, Long AJ, Milne GA, Clark PU, DeConto R, Horton BP, Rahmstorf S, and Raymo ME

Abstract

Interdisciplinary studies of geologic archives have ushered in a new era of deciphering magnitudes, rates, and sources of sea-level rise from polar ice-sheet loss during past warm periods. Accounting for glacial isostatic processes helps to reconcile spatial variability in peak sea level during marine isotope stages 5e and 11, when the global mean reached 6 to 9 meters and 6 to 13 meters higher than present, respectively. Dynamic topography introduces large uncertainties on longer time scales, precluding robust sea-level estimates for intervals such as the Pliocene. Present climate is warming to a level associated with significant polar ice-sheet loss in the past. Here, we outline advances and challenges involved in constraining ice-sheet sensitivity to climate change with use of paleo-sea level records., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

31. Greenland temperature response to climate forcing during the last deglaciation.

Author

Buizert C, Gkinis V, Severinghaus JP, He F, Lecavalier BS, Kindler P, Leuenberger M, Carlson AE, Vinther B, Masson-Delmotte V, White JW, Liu Z, Otto-Bliesner B, and Brook EJ

Subjects

Computer Simulation, Freezing, Greenland, Models, Theoretical, Oxygen Isotopes analysis, Climate Change, Ice Cover, Temperature

Abstract

Greenland ice core water isotopic composition (δ(18)O) provides detailed evidence for abrupt climate changes but is by itself insufficient for quantitative reconstruction of past temperatures and their spatial patterns. We investigate Greenland temperature evolution during the last deglaciation using independent reconstructions from three ice cores and simulations with a coupled ocean-atmosphere climate model. Contrary to the traditional δ(18)O interpretation, the Younger Dryas period was 4.5° ± 2°C warmer than the Oldest Dryas, due to increased carbon dioxide forcing and summer insolation. The magnitude of abrupt temperature changes is larger in central Greenland (9° to 14°C) than in the northwest (5° to 9°C), fingerprinting a North Atlantic origin. Simulated changes in temperature seasonality closely track changes in the Atlantic overturning strength and support the hypothesis that abrupt climate change is mostly a winter phenomenon., (Copyright © 2014, American Association for the Advancement of Science.)

Published

2014

32. The use of satellite tags to redefine movement patterns of spiny dogfish (Squalus acanthias) along the U.S. east coast: implications for fisheries management.

Author

Carlson AE, Hoffmayer ER, Tribuzio CA, and Sulikowski JA

Subjects

Animal Identification Systems instrumentation, Animal Migration physiology, Animals, Atlantic Ocean, Female, Geography, Homing Behavior physiology, Maine, Male, Massachusetts, Models, Biological, Movement physiology, North Carolina, Seasons, Temperature, Time Factors, Virginia, Animal Identification Systems methods, Fisheries methods, Satellite Communications, Squalus acanthias physiology, Swimming physiology

Abstract

Spiny dogfish (Squalus acanthias) are assumed to be a highly migratory species, making habitual north-south migrations throughout their northwestern Atlantic United States (U.S.) range. Also assumed to be a benthic species, spiny dogfish stock structure is estimated through Northeast Fisheries Science Center (NEFSC) bottom-trawl surveys. Recent anomalies in population trends, including a recent four-fold increase in estimated spawning stock biomass, suggest alternative movement patterns could exist for this shark species. To obtain a better understanding of the horizontal and vertical movement dynamics of this species, Microwave Telemetry pop-up satellite archival X-Tags were attached to forty adult spiny dogfish at the northern (Gulf of Maine) and southern (North Carolina) extents of their core U.S. geographic range. Reconstructed geolocation tracks ranging in lengths from two to 12 months suggest that the seasonal migration patterns appear to be local in nature to each respective northern and southern deployment site, differing from previously published migration paradigms. Differences in distance and direction traveled between seasonal geolocations possibly indicate separate migratory patterns between groups. Kernel utilization distribution models also suggest strong separate core home ranges. Significant differences in seasonal temperature and depths between the two regions further substantiate the possibility of separate regional movement patterns between the two groups. Vertical utilization also suggests distinct diel patterns and that this species may not utilize the benthos as previously thought, potentially decreasing availability to benthic gear.

Published

2014

33. South Greenland ice-sheet collapse during Marine Isotope Stage 11.

Author

Reyes AV, Carlson AE, Beard BL, Hatfield RG, Stoner JS, Winsor K, Welke B, and Ullman DJ

Abstract

Varying levels of boreal summer insolation and associated Earth system feedbacks led to differing climate and ice-sheet states during late-Quaternary interglaciations. In particular, Marine Isotope Stage (MIS) 11 was an exceptionally long interglaciation and potentially had a global mean sea level 6 to 13 metres above the present level around 410,000 to 400,000 years ago, implying substantial mass loss from the Greenland ice sheet (GIS). There are, however, no model simulations and only limited proxy data to constrain the magnitude of the GIS response to climate change during this 'super interglacial', thus confounding efforts to assess climate/ice-sheet threshold behaviour and associated sea-level rise. Here we show that the south GIS was drastically smaller during MIS 11 than it is now, with only a small residual ice dome over southernmost Greenland. We use the strontium-neodymium-lead isotopic composition of proglacial sediment discharged from south Greenland to constrain the provenance of terrigenous silt deposited on the Eirik Drift, a sedimentary deposit off the south Greenland margin. We identify a major reduction in sediment input derived from south Greenland's Precambrian bedrock terranes, probably reflecting the cessation of subglacial erosion and sediment transport as a result of near-complete deglaciation of south Greenland. Comparison with ice-sheet configurations from numerical models suggests that the GIS lost about 4.5 to 6 metres of sea-level-equivalent volume during MIS 11. This is evidence for late-Quaternary GIS collapse after it crossed a climate/ice-sheet stability threshold that may have been no more than several degrees above pre-industrial temperatures.

Published

2014

34. Flavonoid regulation of HCN2 channels.

Author

Carlson AE, Rosenbaum JC, Brelidze TI, Klevit RE, and Zagotta WN

Subjects

Animals, Binding Sites, Cyclic AMP chemistry, Cyclic AMP genetics, Flavonoids chemistry, Flavonols, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels chemistry, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels genetics, Ion Channel Gating physiology, Mice, Nuclear Magnetic Resonance, Biomolecular, Potassium Channels chemistry, Potassium Channels genetics, Protein Structure, Tertiary, Xenopus laevis, Cyclic AMP metabolism, Flavonoids pharmacology, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels agonists, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels metabolism, Ion Channel Gating drug effects, Potassium Channels agonists, Potassium Channels metabolism

Abstract

The hyperpolarization-activated cyclic nucleotide-modulated (HCN) channels are pacemaker channels whose currents contribute to rhythmic activity in the heart and brain. HCN channels open in response to hyperpolarizing voltages, and the binding of cAMP to their cyclic nucleotide-binding domain (CNBD) facilitates channel opening. Here, we report that, like cAMP, the flavonoid fisetin potentiates HCN2 channel gating. Fisetin sped HCN2 activation and shifted the conductance-voltage relationship to more depolarizing potentials with a half-maximal effective concentration (EC50) of 1.8 μM. When applied together, fisetin and cAMP regulated HCN2 gating in a nonadditive fashion. Fisetin did not potentiate HCN2 channels lacking their CNBD, and two independent fluorescence-based binding assays reported that fisetin bound to the purified CNBD. These data suggest that the CNBD mediates the fisetin potentiation of HCN2 channels. Moreover, binding assays suggest that fisetin and cAMP partially compete for binding to the CNBD. NMR experiments demonstrated that fisetin binds within the cAMP-binding pocket, interacting with some of the same residues as cAMP. Together, these data indicate that fisetin is a partial agonist for HCN2 channels.

Published

2013

35. The structural mechanism of KCNH-channel regulation by the eag domain.

Author

Haitin Y, Carlson AE, and Zagotta WN

Subjects

Animals, Binding Sites, Crystallography, X-Ray, ERG1 Potassium Channel, Ether-A-Go-Go Potassium Channels genetics, Humans, Mice, Models, Molecular, Nucleotides, Cyclic metabolism, Protein Binding, Protein Structure, Tertiary, Static Electricity, Ether-A-Go-Go Potassium Channels chemistry, Ether-A-Go-Go Potassium Channels metabolism

Abstract

The KCNH voltage-dependent potassium channels (ether-à-go-go, EAG; EAG-related gene, ERG; EAG-like channels, ELK) are important regulators of cellular excitability and have key roles in diseases such as cardiac long QT syndrome type 2 (LQT2), epilepsy, schizophrenia and cancer. The intracellular domains of KCNH channels are structurally distinct from other voltage-gated channels. The amino-terminal region contains an eag domain, which is composed of a Per-Arnt-Sim (PAS) domain and a PAS-cap domain, whereas the carboxy-terminal region contains a cyclic nucleotide-binding homology domain (CNBHD), which is connected to the pore through a C-linker domain. Many disease-causing mutations localize to these specialized intracellular domains, which underlie the unique gating and regulation of KCNH channels. It has been suggested that the eag domain may regulate the channel by interacting with either the S4-S5 linker or the CNBHD. Here we present a 2 Å resolution crystal structure of the eag domain-CNBHD complex of the mouse EAG1 (also known as KCNH1) channel. It displays extensive interactions between the eag domain and the CNBHD, indicating that the regulatory mechanism of the eag domain primarily involves the CNBHD. Notably, the structure reveals that a number of LQT2 mutations at homologous positions in human ERG, in addition to cancer-associated mutations in EAG channels, localize to the eag domain-CNBHD interface. Furthermore, mutations at the interface produced marked effects on channel gating, demonstrating the important physiological role of the eag domain-CNBHD interaction. Our structure of the eag domain-CNBHD complex of mouse EAG1 provides unique insights into the physiological and pathophysiological mechanisms of KCNH channels.

Published

2013

36. Flavonoid regulation of EAG1 channels.

Author

Carlson AE, Brelidze TI, and Zagotta WN

Subjects

Action Potentials drug effects, Action Potentials genetics, Animals, Flavonols, Ion Channel Gating genetics, Kaempferols pharmacology, Ligands, Luteolin pharmacology, Mice, Mutation, Nucleotides, Cyclic genetics, Nucleotides, Cyclic metabolism, Protein Structure, Tertiary, Quercetin pharmacology, Xenopus laevis, Ether-A-Go-Go Potassium Channels genetics, Ether-A-Go-Go Potassium Channels metabolism, Flavonoids pharmacology, Ion Channel Gating drug effects

Abstract

The voltage-gated, K(+)-selective ether á go-go 1 (EAG1) channel is expressed throughout the brain where it is thought to regulate neuronal excitability. Besides its normal physiological role in the brain, EAG1 is abnormally expressed in several cancer cell types and promotes tumor progression. Like all other channels in the KCNH family, EAG1 channels have a large intracellular carboxy-terminal region that shares structural similarity with cyclic nucleotide-binding homology domains (CNBHDs). EAG1 channels, however, are not regulated by the direct binding of cyclic nucleotides and have no known endogenous ligands. In a screen of biological metabolites, we have now identified four flavonoids as potentiators of EAG1 channels: fisetin, quercetin, luteolin, and kaempferol. These four flavonoids shifted the voltage dependence of activation toward more hyperpolarizing potentials and slowed channel deactivation. All four flavonoids regulated channel gating with half-maximal concentrations of 2-8 µM. The potentiation of gating did not require the amino-terminal or post-CNBHD regions of EAG1 channels. However, in fluorescence resonance energy transfer and anisotropy-based binding assays, flavonoids bound to the purified CNBHD of EAG1 channels. The CNBHD of KCNH channels contains an intrinsic ligand, a conserved stretch of residues that occupy the cyclic nucleotide-binding pocket. Mutations of the intrinsic ligand in EAG1 (Y699A) potentiated gating similar to flavonoids, and flavonoids did not further potentiate EAG1-Y699A channels. Furthermore, the Y699A mutant CNBHD bound to flavonoids with higher affinity than wild-type CNBHD. These results suggest that the flavonoids identified here potentiated EAG1 channels by binding to the CNBHD, possibly by displacing their intrinsic ligand. EAG1 channels should be considered as a possible target for the physiological effects of flavonoids.

Published

2013

37. Northern Hemisphere forcing of Southern Hemisphere climate during the last deglaciation.

Author

He F, Shakun JD, Clark PU, Carlson AE, Liu Z, Otto-Bliesner BL, and Kutzbach JE

Abstract

According to the Milankovitch theory, changes in summer insolation in the high-latitude Northern Hemisphere caused glacial cycles through their impact on ice-sheet mass balance. Statistical analyses of long climate records supported this theory, but they also posed a substantial challenge by showing that changes in Southern Hemisphere climate were in phase with or led those in the north. Although an orbitally forced Northern Hemisphere signal may have been transmitted to the Southern Hemisphere, insolation forcing can also directly influence local Southern Hemisphere climate, potentially intensified by sea-ice feedback, suggesting that the hemispheres may have responded independently to different aspects of orbital forcing. Signal processing of climate records cannot distinguish between these conditions, however, because the proposed insolation forcings share essentially identical variability. Here we use transient simulations with a coupled atmosphere-ocean general circulation model to identify the impacts of forcing from changes in orbits, atmospheric CO(2) concentration, ice sheets and the Atlantic meridional overturning circulation (AMOC) on hemispheric temperatures during the first half of the last deglaciation (22-14.3 kyr BP). Although based on a single model, our transient simulation with only orbital changes supports the Milankovitch theory in showing that the last deglaciation was initiated by rising insolation during spring and summer in the mid-latitude to high-latitude Northern Hemisphere and by terrestrial snow-albedo feedback. The simulation with all forcings best reproduces the timing and magnitude of surface temperature evolution in the Southern Hemisphere in deglacial proxy records. AMOC changes associated with an orbitally induced retreat of Northern Hemisphere ice sheets is the most plausible explanation for the early Southern Hemisphere deglacial warming and its lead over Northern Hemisphere temperature; the ensuing rise in atmospheric CO(2) concentration provided the critical feedback on global deglaciation.

Published

2013

38. Botfly parasitism and tourism on the endangered black howler monkey of Belize.

Author

Treves A and Carlson AE

Subjects

Animals, Belize epidemiology, Diptera physiology, Endangered Species, Female, Host-Parasite Interactions, Humans, Male, Myiasis epidemiology, Social Behavior, Travel, Alouatta parasitology, Myiasis veterinary

Abstract

Tourism imposes costs and benefits on wild primates. Endangered black howler monkey (Alouatta pigra) troops with high exposure to tourism had higher levels of botfly (Alouattamyia baeri) parasitism. Edge habitat and juvenile numbers did not seem to confound the observed relationship. To improve the cost/benefit ratio of tourism, we recommend further investigation., (© 2012 John Wiley & Sons A/S.)

Published

2012

39. Younger Dryas cooling and the Greenland climate response to CO2.

Author

Liu Z, Carlson AE, He F, Brady EC, Otto-Bliesner BL, Briegleb BP, Wehrenberg M, Clark PU, Wu S, Cheng J, Zhang J, Noone D, and Zhu J

Subjects

Arctic Regions, Atmosphere, Climate, Cold Temperature, Geologic Sediments, Global Warming, Greenhouse Effect, Greenland, Ice, Isotopes chemistry, Oxygen chemistry, Seawater, Temperature, Carbon Dioxide chemistry

Abstract

Greenland ice-core δ(18)O-temperature reconstructions suggest a dramatic cooling during the Younger Dryas (YD; 12.9-11.7 ka), with temperatures being as cold as the earlier Oldest Dryas (OD; 18.0-14.6 ka) despite an approximately 50 ppm rise in atmospheric CO(2). Such YD cooling implies a muted Greenland climate response to atmospheric CO(2), contrary to physical predictions of an enhanced high-latitude response to future increases in CO(2). Here we show that North Atlantic sea surface temperature reconstructions as well as transient climate model simulations suggest that the YD over Greenland should be substantially warmer than the OD by approximately 5 °C in response to increased atmospheric CO(2). Additional experiments with an isotope-enabled model suggest that the apparent YD temperature reconstruction derived from the ice-core δ(18)O record is likely an artifact of an altered temperature-δ(18)O relationship due to changing deglacial atmospheric circulation. Our results thus suggest that Greenland climate was warmer during the YD relative to the OD in response to rising atmospheric CO(2), consistent with sea surface temperature reconstructions and physical predictions, and has a sensitivity approximately twice that found in climate models for current climate due to an enhanced albedo feedback during the last deglaciation.

Published

2012

40. Global climate evolution during the last deglaciation.

Author

Clark PU, Shakun JD, Baker PA, Bartlein PJ, Brewer S, Brook E, Carlson AE, Cheng H, Kaufman DS, Liu Z, Marchitto TM, Mix AC, Morrill C, Otto-Bliesner BL, Pahnke K, Russell JM, Whitlock C, Adkins JF, Blois JL, Clark J, Colman SM, Curry WB, Flower BP, He F, Johnson TC, Lynch-Stieglitz J, Markgraf V, McManus J, Mitrovica JX, Moreno PI, and Williams JW

Subjects

Atmosphere analysis, Biological Evolution, Carbon Dioxide metabolism, Ecosystem, Geography, Methane metabolism, Models, Theoretical, Monte Carlo Method, Oxygen metabolism, Principal Component Analysis, Seawater, Time Factors, Water Movements, Climate, Global Warming, Ice Cover, Temperature

Abstract

Deciphering the evolution of global climate from the end of the Last Glacial Maximum approximately 19 ka to the early Holocene 11 ka presents an outstanding opportunity for understanding the transient response of Earth's climate system to external and internal forcings. During this interval of global warming, the decay of ice sheets caused global mean sea level to rise by approximately 80 m; terrestrial and marine ecosystems experienced large disturbances and range shifts; perturbations to the carbon cycle resulted in a net release of the greenhouse gases CO(2) and CH(4) to the atmosphere; and changes in atmosphere and ocean circulation affected the global distribution and fluxes of water and heat. Here we summarize a major effort by the paleoclimate research community to characterize these changes through the development of well-dated, high-resolution records of the deep and intermediate ocean as well as surface climate. Our synthesis indicates that the superposition of two modes explains much of the variability in regional and global climate during the last deglaciation, with a strong association between the first mode and variations in greenhouse gases, and between the second mode and variations in the Atlantic meridional overturning circulation.

Published

2012

41. Structure of the carboxy-terminal region of a KCNH channel.

Author

Brelidze TI, Carlson AE, Sankaran B, and Zagotta WN

Subjects

Animals, Binding Sites, Crystallography, X-Ray, Electrophysiological Phenomena, Ether-A-Go-Go Potassium Channels genetics, Ether-A-Go-Go Potassium Channels metabolism, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels, Ion Channels chemistry, Models, Molecular, Mutation, Protein Structure, Quaternary, Protein Structure, Tertiary, Static Electricity, Structure-Activity Relationship, Zebrafish, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, Ether-A-Go-Go Potassium Channels chemistry, Zebrafish Proteins chemistry

Abstract

The KCNH family of ion channels, comprising ether-à-go-go (EAG), EAG-related gene (ERG), and EAG-like (ELK) K(+)-channel subfamilies, is crucial for repolarization of the cardiac action potential, regulation of neuronal excitability and proliferation of tumour cells. The carboxy-terminal region of KCNH channels contains a cyclic-nucleotide-binding homology domain (CNBHD) and C-linker that couples the CNBHD to the pore. The C-linker/CNBHD is essential for proper function and trafficking of ion channels in the KCNH family. However, despite the importance of the C-linker/CNBHD for the function of KCNH channels, the structural basis of ion-channel regulation by the C-linker/CNBHD is unknown. Here we report the crystal structure of the C-linker/CNBHD of zebrafish ELK channels at 2.2-Å resolution. Although the overall structure of the C-linker/CNBHD of ELK channels is similar to the cyclic-nucleotide-binding domain (CNBD) structure of the related hyperpolarization-activated cyclic-nucleotide-modulated (HCN) channels, there are marked differences. Unlike the CNBD of HCN, the CNBHD of ELK displays a negatively charged electrostatic profile that explains the lack of binding and regulation of KCNH channels by cyclic nucleotides. Instead of cyclic nucleotide, the binding pocket is occupied by a short β-strand. Mutations of the β-strand shift the voltage dependence of activation to more depolarized voltages, implicating the β-strand as an intrinsic ligand for the CNBHD of ELK channels. In both ELK and HCN channels the C-linker is the site of virtually all of the intersubunit interactions in the C-terminal region. However, in the zebrafish ELK structure there is a reorientation in the C-linker so that the subunits form dimers instead of tetramers, as observed in HCN channels. These results provide a structural framework for understanding the regulation of ion channels in the KCNH family by the C-linker/CNBHD and may guide the design of specific drugs.

Published

2012

42. Ice-shelf collapse from subsurface warming as a trigger for Heinrich events.

Author

Marcott SA, Clark PU, Padman L, Klinkhammer GP, Springer SR, Liu Z, Otto-Bliesner BL, Carlson AE, Ungerer A, Padman J, He F, Cheng J, and Schmittner A

Subjects

Calcium analysis, Climate, Foraminifera chemistry, Magnesium analysis, Oceans and Seas, Water Movements, Greenhouse Effect, Ice Cover chemistry, Temperature

Abstract

Episodic iceberg-discharge events from the Hudson Strait Ice Stream (HSIS) of the Laurentide Ice Sheet, referred to as Heinrich events, are commonly attributed to internal ice-sheet instabilities, but their systematic occurrence at the culmination of a large reduction in the Atlantic meridional overturning circulation (AMOC) indicates a climate control. We report Mg/Ca data on benthic foraminifera from an intermediate-depth site in the northwest Atlantic and results from a climate-model simulation that reveal basin-wide subsurface warming at the same time as large reductions in the AMOC, with temperature increasing by approximately 2 °C over a 1-2 kyr interval prior to a Heinrich event. In simulations with an ocean model coupled to a thermodynamically active ice shelf, the increase in subsurface temperature increases basal melt rate under an ice shelf fronting the HSIS by a factor of approximately 6. By analogy with recent observations in Antarctica, the resulting ice-shelf loss and attendant HSIS acceleration would produce a Heinrich event.

Published

2011

43. Sr-Nd-Pb isotope evidence for ice-sheet presence on southern Greenland during the Last Interglacial.

Author

Colville EJ, Carlson AE, Beard BL, Hatfield RG, Stoner JS, Reyes AV, and Ullman DJ

Abstract

To ascertain the response of the southern Greenland Ice Sheet (GIS) to a boreal summer climate warmer than at present, we explored whether southern Greenland was deglaciated during the Last Interglacial (LIG), using the Sr-Nd-Pb isotope ratios of silt-sized sediment discharged from southern Greenland. Our isotope data indicate that no single southern Greenland geologic terrane was completely deglaciated during the LIG, similar to the Holocene. Differences in sediment sources during the LIG relative to the early Holocene denote, however, greater southern GIS retreat during the LIG. These results allow the evaluation of a suite of GIS models and are consistent with a GIS contribution of 1.6 to 2.2 meters to the ≥4-meter LIG sea-level highstand, requiring a significant sea-level contribution from the Antarctic Ice Sheet.

Published

2011

44. Movement of trichloroethene in a discontinuous permafrost zone.

Author

Carlson AE and Barnes DL

Subjects

Alaska, Cold Climate, Soil analysis, Soil Pollutants analysis, Solvents analysis, Trichloroethylene analysis, Water Movements, Water Pollutants, Chemical analysis, Water Pollutants, Chemical chemistry, Soil chemistry, Soil Pollutants chemistry, Solvents chemistry, Trichloroethylene chemistry, Water Supply analysis

Abstract

At a site with discontinuous permafrost in Fairbanks, Alaska, releases of trichloroethene (TCE), an industrial solvent, have caused contamination of the groundwater. The objective of this study was to investigate the relationship between the migration pathway of the TCE groundwater plume and the distribution of the discontinuous permafrost at the site. The TCE plume configuration is substantially different than what regional hydrology trends would predict. Using GIS, we conducted a geostatistical analysis of field data collected during soil-boring installations and groundwater monitoring well sampling. With the analysis results, we constructed maps of the permafrost-table elevation (top of permafrost) and of the groundwater gradients and TCE concentrations from multiyear groundwater sampling events. The plume concentrations and groundwater gradients were overlain on the permafrost map to correlate permafrost locations with groundwater movement and the spatial distribution of TCE moving with groundwater. Correlation of the overlay maps revealed converging and diverging groundwater flow in response to the permafrost-table distribution, the absence of groundwater contamination in areas with a high permafrost-table elevation, and channeling of contaminants and water between areas of permafrost. In addition, we measured groundwater elevations in nested wells to quantify vertical gradients affecting TCE migration. At one set of nested wells down gradient from an area of permafrost we measured an upward vertical gradient indicating recharge of groundwater from the subpermafrost region of the aquifer causing dilution of the plume. The study indicates that the variable distribution of the permafrost is affecting the way groundwater and TCE move through the aquifer. Consequently, changes to the permafrost configuration due to thawing would likely affect both groundwater movement and TCE migration, and areas that were contaminant-free may become susceptible to contamination., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published

2011

45. Identifying regulators for EAG1 channels with a novel electrophysiology and tryptophan fluorescence based screen.

Author

Brelidze TI, Carlson AE, Davies DR, Stewart LJ, and Zagotta WN

Subjects

Animals, Drug Evaluation, Preclinical, Ether-A-Go-Go Potassium Channels genetics, Ligands, Mice, Protein Binding, Protein Structure, Tertiary, Tryptophan chemistry, Electrophysiology methods, Ether-A-Go-Go Potassium Channels chemistry, Ether-A-Go-Go Potassium Channels metabolism, Tryptophan metabolism

Abstract

Background: Ether-à-go-go (EAG) channels are expressed throughout the central nervous system and are also crucial regulators of cell cycle and tumor progression. The large intracellular amino- and carboxy- terminal domains of EAG1 each share similarity with known ligand binding motifs in other proteins, yet EAG1 channels have no known regulatory ligands., Methodology/principal Findings: Here we screened a library of small biologically relevant molecules against EAG1 channels with a novel two-pronged screen to identify channel regulators. In one arm of the screen we used electrophysiology to assess the functional effects of the library compounds on full-length EAG1 channels. In an orthogonal arm, we used tryptophan fluorescence to screen for binding of the library compounds to the isolated C-terminal region., Conclusions/significance: Several compounds from the flavonoid, indole and benzofuran chemical families emerged as binding partners and/or regulators of EAG1 channels. The two-prong screen can aid ligand and drug discovery for ligand-binding domains of other ion channels.

Published

2010

46. Tenofovir treatment of primary osteoblasts alters gene expression profiles: implications for bone mineral density loss.

Author

Grigsby IF, Pham L, Mansky LM, Gopalakrishnan R, Carlson AE, and Mansky KC

Subjects

Adenine adverse effects, Adenine pharmacology, Animals, Anti-HIV Agents pharmacology, Bone Density genetics, Bone Resorption genetics, Mice, Mice, Inbred C57BL, Organophosphonates pharmacology, Osteoblasts metabolism, Prodrugs adverse effects, Prodrugs pharmacology, Tenofovir, Adenine analogs & derivatives, Anti-HIV Agents adverse effects, Bone Density drug effects, Bone Resorption chemically induced, Gene Expression drug effects, Organophosphonates adverse effects, Osteoblasts drug effects

Abstract

There is strong clinical evidence that implicates tenofovir in the loss of bone mineral density during treatment of human immunodeficiency virus infection. In this study, we sought to test the hypothesis that tenofovir treatment of osteoblasts causes changes in the gene expression profile that would impact osteoblast function during bone formation. Primary osteoblasts were isolated and then treated with the tenofovir prodrug, tenofovir disoproxil fumarate (TDF). Total RNA from TDF-treated and untreated osteoblasts were extracted and used for microarray analysis to assess TDF-associated changes in the gene expression profile. Strikingly, the changes in gene expression profiles involved in cell signaling, cell cycle and amino acid metabolism, which would likely impact osteoblast function in bone formation. Our findings demonstrate for the first time that tenofovir treatment of primary osteoblasts results in gene expression changes that implicate loss of osteoblast function in tenofovir-associated bone mineral density loss., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

47. Bone morphogenic protein 2 directly enhances differentiation of murine osteoclast precursors.

Author

Jensen ED, Pham L, Billington CJ Jr, Espe K, Carlson AE, Westendorf JJ, Petryk A, Gopalakrishnan R, and Mansky K

Subjects

Animals, Bone Morphogenetic Protein 2 physiology, Cell Differentiation, Mice, Osteoclasts cytology, Osteoprotegerin, RANK Ligand, Signal Transduction physiology, Smad Proteins analysis, Smad Proteins metabolism, Stem Cells cytology, Autocrine Communication, Bone Morphogenetic Protein 2 metabolism, Bone Morphogenetic Protein Receptors metabolism

Abstract

Previous studies found that bone morphogenic proteins (BMPs) support osteoclast formation, but it is not clear whether this is a direct effect on osteoclasts or mediated indirectly through osteoblasts. We have shown that a mouse deficient for the BMP antagonist Twisted gastrulation suggested a direct positive role for BMPs on osteoclastogenesis. In this report, we further determine the significance of BMP signaling on osteoclast formation in vitro. We find that BMP2 synergizes with suboptimal levels of receptor activator of NF-kappaB ligand (RANKL) to enhance in vitro differentiation of osteoclast-like cells. The enhancement by BMP2 is not a result of changes in the rate of proliferation or survival of the bone marrow-derived cultures, but is accompanied by an increase in expression of genes involved in osteoclast differentiation and fusion. Treatment with BMP2 did not significantly alter expression of RANKL or OPG in our osteoclast cultures, suggesting that the enhancement of osteoclastogenesis is not mediated indirectly through osteoblasts or stromal cells. Consistent with this, we detected phosphorylated SMAD1,5,8 (p-SMAD) in the nuclei of mononuclear and multinucleated cells in osteoclast cultures. Levels of p-SMAD, BMP2, and BMP receptors increased during differentiation. RNAi suppression of Type II BMP receptor inhibited RANKL-stimulated formation of multinuclear TRAP-positive cells. The BMP antagonist noggin inhibited RANKL-mediated osteoclast differentiation when added prior to day 3, while addition of noggin on day 3 or later failed to inhibit their differentiation. Taken together, these data indicate that osteoclasts express BMP2 and BMP receptors, and that autocrine BMP signaling directly promotes the differentiation of osteoclasts-like cells., ((c) 2009 Wiley-Liss, Inc.)

Published

2010

48. Enhanced osteoclastogenesis causes osteopenia in twisted gastrulation-deficient mice through increased BMP signaling.

Author

Sotillo Rodriguez JE, Mansky KC, Jensen ED, Carlson AE, Schwarz T, Pham L, MacKenzie B, Prasad H, Rohrer MD, Petryk A, and Gopalakrishnan R

Subjects

Animals, Bone Diseases, Metabolic metabolism, Cell Fusion, Cells, Cultured, Mice, Osteoblasts drug effects, Osteoblasts metabolism, Osteoblasts pathology, Osteoclasts drug effects, Osteoclasts metabolism, Osteoprotegerin genetics, Osteoprotegerin metabolism, Phenotype, Proteins genetics, RANK Ligand genetics, RANK Ligand metabolism, RANK Ligand pharmacology, Smad Proteins metabolism, Bone Diseases, Metabolic pathology, Bone Morphogenetic Proteins metabolism, Osteoclasts pathology, Osteogenesis drug effects, Proteins metabolism, Signal Transduction drug effects

Abstract

The uncoupling of osteoblastic and osteoclastic activity is central to disorders such as osteoporosis, osteolytic malignancies, and periodontitis. Numerous studies have shown explicit functions for bone morphogenetic proteins (BMPs) in skeletogenesis. Their signaling activity has been shown in various contexts to be regulated by extracellular proteins, including Twisted gastrulation (TWSG1). However, experimental paradigms determining the effects of BMP regulators on bone remodeling are limited. In this study, we assessed the role of TWSG1 in postnatal bone homeostasis. Twsg1-deficient (Twsg1(-/-)) mice developed osteopenia that could not be explained by defective osteoblast function, because mineral apposition rate and differentiation markers were not significantly different compared with wildtype (WT) mice. Instead, we discovered a striking enhancement of osteoclastogenesis in Twsg1(-/-) mice, leading to increased bone resorption with resultant osteopenia. Enhanced osteoclastogenesis in Twsg1(-/-) mice was caused by increased cell fusion, differentiation, and function of osteoclasts. Furthermore, RANKL-mediated osteoclastogenesis and phosphorylated Smad1/5/8 levels were enhanced when WT osteoclasts were treated with recombinant BMP2, suggesting direct regulation of osteoclast differentiation by BMPs. Increase in detectable levels of phosphorylated Smad 1/5/8 was noted in osteoclasts from Twsg1(-/-) mice compared with WT mice. Furthermore, the enhanced osteoclastogenesis in Twsg1(-/-) mice was reversed in vitro in a dose-dependent manner with exposure to Noggin, a BMP antagonist, strongly suggesting that the enhanced osteoclastogenesis in Twsg1 mutants is attributable to increased BMP signaling. Thus, we present a novel and previously uncharacterized role for TWSG1 in inhibiting osteoclastogenesis through regulation of BMP activity.

Published

2009

49. Absence of direct cyclic nucleotide modulation of mEAG1 and hERG1 channels revealed with fluorescence and electrophysiological methods.

Author

Brelidze TI, Carlson AE, and Zagotta WN

Subjects

Amino Acid Sequence, Animals, Cyclic AMP chemistry, Cyclic GMP chemistry, ERG1 Potassium Channel, Ether-A-Go-Go Potassium Channels genetics, Humans, Ion Channel Gating physiology, Mice, Models, Molecular, Molecular Sequence Data, Protein Binding, Protein Isoforms genetics, Protein Structure, Secondary, Protein Structure, Tertiary, Sequence Alignment, Cyclic AMP metabolism, Cyclic GMP metabolism, Ether-A-Go-Go Potassium Channels metabolism, Patch-Clamp Techniques methods, Protein Isoforms metabolism, Spectrometry, Fluorescence methods

Abstract

Similar to CNG and HCN channels, EAG and ERG channels contain a cyclic nucleotide binding domain (CNBD) in their C terminus. While cyclic nucleotides have been shown to facilitate opening of CNG and HCN channels, their effect on EAG and ERG channels is less clear. Here we explored cyclic nucleotide binding and modulation of mEAG1 and hERG1 channels with fluorescence and electrophysiology. Binding of cyclic nucleotides to the isolated CNBD of mEAG1 and hERG1 channels was examined with two independent fluorescence-based methods: changes in tryptophan fluorescence and fluorescence of an analog of cAMP, 8-NBD-cAMP. As a positive control for cyclic nucleotide binding we used changes in the fluorescence of the isolated CNBD of mHCN2 channels. Our results indicated that cyclic nucleotides do not bind to the isolated CNBD domain of mEAG1 channels and bind with low affinity (K(d) > or = 51 microm) to the isolated CNBD of hERG1 channels. Consistent with the results on the isolated CNBD, application of cyclic nucleotides to inside-out patches did not affect currents recorded from mEAG1 channels. Surprisingly, despite its low affinity binding to the isolated CNBD, cAMP also had no effect on currents from hERG1 channels even at high concentrations. Our results indicate that cyclic nucleotides do not directly modulate mEAG1 and hERG1 channels. Further studies are necessary to determine if the CNBD in the EAG family of K(+) channels might harbor a binding site for a ligand yet to be uncovered.

Published

2009

50. Pharmacological targeting of native CatSper channels reveals a required role in maintenance of sperm hyperactivation.

Author

Carlson AE, Burnett LA, del Camino D, Quill TA, Hille B, Chong JA, Moran MM, and Babcock DF

Subjects

Animals, Calcium metabolism, Ion Transport, Male, Mice, Sodium metabolism, Calcium Channels drug effects, Spermatozoa drug effects

Abstract

The four sperm-specific CatSper ion channel proteins are required for hyperactivated motility and male fertility, and for Ca(2+) entry evoked by alkaline depolarization. In the absence of external Ca(2+), Na(+) carries current through CatSper channels in voltage-clamped sperm. Here we show that CatSper channel activity can be monitored optically with the [Na(+)](i)-reporting probe SBFI in populations of intact sperm. Removal of external Ca(2+) increases SBFI signals in wild-type but not CatSper2-null sperm. The rate of the indicated rise of [Na(+)](i) is greater for sperm alkalinized with NH(4)Cl than for sperm acidified with propionic acid, reflecting the alkaline-promoted signature property of CatSper currents. In contrast, the [Na(+)](i) rise is slowed by candidate CatSper blocker HC-056456 (IC(50) approximately 3 microM). HC-056456 similarly slows the rise of [Ca(2+)](i) that is evoked by alkaline depolarization and reported by fura-2. HC-056456 also selectively and reversibly decreased CatSper currents recorded from patch-clamped sperm. HC-056456 does not prevent activation of motility by HCO(3) (-) but does prevent the development of hyperactivated motility by capacitating incubations, thus producing a phenocopy of the CatSper-null sperm. When applied to hyperactivated sperm, HC-056456 causes a rapid, reversible loss of flagellar waveform asymmetry, similar to the loss that occurs when Ca(2+) entry through the CatSper channel is terminated by removal of external Ca(2+). Thus, open CatSper channels and entry of external Ca(2+) through them sustains hyperactivated motility. These results indicate that pharmacological targeting of the CatSper channel may impose a selective late-stage block to fertility, and that high-throughput screening with an optical reporter of CatSper channel activity may identify additional selective blockers with potential for male-directed contraception.

Published

2009