Your search keyword '"Hai M"' showing total 66 results

1. Riluzole and novel naphthalenyl substituted aminothiazole derivatives prevent acute neural excitotoxic injury in a rat model of temporal lobe epilepsy

Author

Kyllo, Thomas, Kyllo, Thomas, Singh, Vikrant, Shim, Heesung, Latika, Singh, Nguyen, Hai M, Chen, Yi-Je, Terry, Ellen, Wulff, Heike, Erickson, Jeffrey D, Kyllo, Thomas, Kyllo, Thomas, Singh, Vikrant, Shim, Heesung, Latika, Singh, Nguyen, Hai M, Chen, Yi-Je, Terry, Ellen, Wulff, Heike, and Erickson, Jeffrey D

Published

2023

2. Immunocytoprotection after reperfusion with Kv1.3 inhibitors has an extended treatment window for ischemic stroke.

Author

Lee, Ruth D, Lee, Ruth D, Chen, Yi-Je, Singh, Latika, Nguyen, Hai M, Wulff, Heike, Lee, Ruth D, Lee, Ruth D, Chen, Yi-Je, Singh, Latika, Nguyen, Hai M, and Wulff, Heike

Abstract

Introduction: Mechanical thrombectomy has improved treatment options and outcomes for acute ischemic stroke with large artery occlusion. However, as the time window of endovascular thrombectomy is extended there is an increasing need to develop immunocytoprotective therapies that can reduce inflammation in the penumbra and prevent reperfusion injury. We previously demonstrated, that by reducing neuroinflammation, KV1.3 inhibitors can improve outcomes not only in young male rodents but also in female and aged animals. To further explore the therapeutic potential of KV1.3 inhibitors for stroke therapy, we here directly compared a peptidic and a small molecule KV1.3 blocker and asked whether KV1.3 inhibition would still be beneficial when started at 72 hours after reperfusion. Methods: Transient middle cerebral artery occlusion (tMCAO, 90-min) was induced in male Wistar rats and neurological deficit assessed daily. On day-8 infarction was determined by T2-weighted MRI and inflammatory marker expression in the brain by quantitative PCR. Potential interactions with tissue plasminogen activator (tPA) were evaluated in-vitro with a chromogenic assay. Results: In a direct comparison with administration started at 2 hours after reperfusion, the small molecule PAP-1 significantly improved outcomes on day-8, while the peptide ShK-223 failed to reduce infarction and neurological deficits despite reducing inflammatory marker expression. PAP-1 still provided benefits when started 72 hours after reperfusion. PAP-1 does not reduce the proteolytic activity of tPA. Discussion: Our studies suggest that KV1.3 inhibition for immunocytoprotection after ischemic stroke has a wide therapeutic window for salvaging the inflammatory penumbra and requires brain-penetrant small molecules.

Published

2023

3. Discovery of novel activators of large-conductance calcium-activated potassium channels for the treatment of cerebellar ataxia

Author

Srinivasan, Sharan R, Srinivasan, Sharan R, Huang, Haoran, Chang, Wei-Chih, Nasburg, Joshua A, Nguyen, Hai M, Strassmaier, Tim, Wulff, Heike, Shakkottai, Vikram G, Srinivasan, Sharan R, Srinivasan, Sharan R, Huang, Haoran, Chang, Wei-Chih, Nasburg, Joshua A, Nguyen, Hai M, Strassmaier, Tim, Wulff, Heike, and Shakkottai, Vikram G

Published

2022

4. Computational design of peptides to target NaV1.7 channel with high potency and selectivity for the treatment of pain.

Author

Nguyen, Phuong T, Nguyen, Phuong T, Nguyen, Hai M, Wagner, Karen M, Stewart, Robert G, Singh, Vikrant, Thapa, Parashar, Chen, Yi-Je, Lillya, Mark W, Ton, Anh Tuan, Kondo, Richard, Ghetti, Andre, Pennington, Michael W, Hammock, Bruce, Griffith, Theanne N, Sack, Jon T, Wulff, Heike, Yarov-Yarovoy, Vladimir, Nguyen, Phuong T, Nguyen, Phuong T, Nguyen, Hai M, Wagner, Karen M, Stewart, Robert G, Singh, Vikrant, Thapa, Parashar, Chen, Yi-Je, Lillya, Mark W, Ton, Anh Tuan, Kondo, Richard, Ghetti, Andre, Pennington, Michael W, Hammock, Bruce, Griffith, Theanne N, Sack, Jon T, Wulff, Heike, and Yarov-Yarovoy, Vladimir

Abstract

The voltage-gated sodium NaV1.7 channel plays a key role as a mediator of action potential propagation in C-fiber nociceptors and is an established molecular target for pain therapy. ProTx-II is a potent and moderately selective peptide toxin from tarantula venom that inhibits human NaV1.7 activation. Here we used available structural and experimental data to guide Rosetta design of potent and selective ProTx-II-based peptide inhibitors of human NaV1.7 channels. Functional testing of designed peptides using electrophysiology identified the PTx2-3127 and PTx2-3258 peptides with IC50s of 7 nM and 4 nM for hNaV1.7 and more than 1000-fold selectivity over human NaV1.1, NaV1.3, NaV1.4, NaV1.5, NaV1.8, and NaV1.9 channels. PTx2-3127 inhibits NaV1.7 currents in mouse and human sensory neurons and shows efficacy in rat models of chronic and thermal pain when administered intrathecally. Rationally designed peptide inhibitors of human NaV1.7 channels have transformative potential to define a new class of biologics to treat pain.

Published

2022

5. Optimal Privacy Preserving for Federated Learning in Mobile Edge Computing

Author

Nguyen, Hai M., Chu, Nam H., Nguyen, Diep N., Hoang, Dinh Thai, Nguyen, Van-Dinh, Ha, Minh Hoang, Dutkiewicz, Eryk, Krunz, Marwan, Nguyen, Hai M., Chu, Nam H., Nguyen, Diep N., Hoang, Dinh Thai, Nguyen, Van-Dinh, Ha, Minh Hoang, Dutkiewicz, Eryk, and Krunz, Marwan

Abstract

Federated Learning (FL) with quantization and deliberately added noise over wireless networks is a promising approach to preserve user differential privacy (DP) while reducing wireless resources. Specifically, an FL process can be fused with quantized Binomial mechanism-based updates contributed by multiple users. However, optimizing quantization parameters, communication resources (e.g., transmit power, bandwidth, and quantization bits), and the added noise to guarantee the DP requirement and performance of the learned FL model remains an open and challenging problem. This article aims to jointly optimize the quantization and Binomial mechanism parameters and communication resources to maximize the convergence rate under the constraints of the wireless network and DP requirement. To that end, we first derive a novel DP budget estimation of the FL with quantization/noise that is tighter than the state-of-the-art bound. We then provide a theoretical bound on the convergence rate. This theoretical bound is decomposed into two components, including the variance of the global gradient and the quadratic bias that can be minimized by optimizing the communication resources, and quantization/noise parameters. The resulting optimization turns out to be a Mixed-Integer Non-linear Programming (MINLP) problem. To tackle it, we first transform this MINLP problem into a new problem whose solutions are proved to be the optimal solutions of the original one. We then propose an approximate algorithm to solve the transformed problem with an arbitrary relative error guarantee. Extensive simulations show that under the same wireless resource constraints and DP protection requirements, the proposed approximate algorithm achieves an accuracy close to the accuracy of the conventional FL without quantization/noise. The results can achieve a higher convergence rate while preserving users' privacy., Comment: 16 pages, 10 figures

Published

2022

6. Prediction of Atmospheric Noise Temperature at the Deep Space Network With Machine Learning

Author

Wu, Longtao, Morabito, David D., Teixeira, Joaquim P., Huang, Lei, Nguyen, Hai M., Su, Hui, Soriano, Melissa A., Pan, Lei, Kahan, Daniel S., Bhawar, Rohini, Wu, Longtao, Morabito, David D., Teixeira, Joaquim P., Huang, Lei, Nguyen, Hai M., Su, Hui, Soriano, Melissa A., Pan, Lei, Kahan, Daniel S., and Bhawar, Rohini

Abstract

Ka-band (32 GHz) communications links utilized by the National Aeronautics and Space Administration (NASA) flight missions for science downlink are susceptible to degradation due to weather. In this study, a customized real-time forecast system has been developed to predict zenith atmospheric noise temperature (Tatm) at the Deep Space Network (DSN) tracking sites using machine learning (ML). A random forest model is trained with the Global Forecast System (GFS) forecast and analysis datasets in addition to the Tatm measurements derived from on-site advanced water vapor radiometers (AWVR). The real-time forecast uncertainty is quantified for different error regimes using the Self-Organizing Map method. The results show that the root mean square error (RMSE) of the 24-hr Tatm prediction at Goldstone, CA increases with the increase of Tatm. At 90% of the time, the forecasts have RMSE (bias) of less than 3.50 K (0.16 K) for fair-weather conditions with Tatm < 16 K. In comparison to the current approach in designing Ka-band communications links, application of weather forecasts can increase data return to the downlink for 80% of the time. A downlink gain of up to 2.43 dB (75% more data) can be realized at 10° elevation angle when Tatm = 8.32 K. © 2022 American Geophysical Union. All Rights Reserved. California Institute of Technology. Government sponsorship acknowledged.

Published

2022

7. Biophysical basis for Kv1.3 regulation of membrane potential changes induced by P2X4-mediated calcium entry in microglia.

Author

Nguyen, Hai M, Nguyen, Hai M, di Lucente, Jacopo, Chen, Yi-Je, Cui, Yanjun, Ibrahim, Rania H, Pennington, Michael W, Jin, Lee-Way, Maezawa, Izumi, Wulff, Heike, Nguyen, Hai M, Nguyen, Hai M, di Lucente, Jacopo, Chen, Yi-Je, Cui, Yanjun, Ibrahim, Rania H, Pennington, Michael W, Jin, Lee-Way, Maezawa, Izumi, and Wulff, Heike

Abstract

Microglia-mediated inflammation exerts adverse effects in ischemic stroke and in neurodegenerative disorders such as Alzheimer's disease (AD). Expression of the voltage-gated potassium channel Kv1.3 is required for microglia activation. Both genetic deletion and pharmacological inhibition of Kv1.3 are effective in reducing microglia activation and the associated inflammatory responses, as well as in improving neurological outcomes in animal models of AD and ischemic stroke. Here we sought to elucidate the molecular mechanisms underlying the therapeutic effects of Kv1.3 inhibition, which remain incompletely understood. Using a combination of whole-cell voltage-clamp electrophysiology and quantitative PCR (qPCR), we first characterized a stimulus-dependent differential expression pattern for Kv1.3 and P2X4, a major ATP-gated cationic channel, both in vitro and in vivo. We then demonstrated by whole-cell current-clamp experiments that Kv1.3 channels contribute not only to setting the resting membrane potential but also play an important role in counteracting excessive membrane potential changes evoked by depolarizing current injections. Similarly, the presence of Kv1.3 channels renders microglia more resistant to depolarization produced by ATP-mediated P2X4 receptor activation. Inhibiting Kv1.3 channels with ShK-223 completely nullified the ability of Kv1.3 to normalize membrane potential changes, resulting in excessive depolarization and reduced calcium transients through P2X4 receptors. Our report thus links Kv1.3 function to P2X4 receptor-mediated signaling as one of the underlying mechanisms by which Kv1.3 blockade reduces microglia-mediated inflammation. While we could confirm previously reported differences between males and females in microglial P2X4 expression, microglial Kv1.3 expression exhibited no gender differences in vitro or in vivo. MAIN POINTS: The voltage-gated K+ channel Kv1.3 regulates microglial membrane potential. Inhibition of Kv1.3 depolarizes m

Published

2020

8. Biophysical basis for Kv1.3 regulation of membrane potential changes induced by P2X4-mediated calcium entry in microglia.

Author

Nguyen, Hai M, Nguyen, Hai M, di Lucente, Jacopo, Chen, Yi-Je, Cui, Yanjun, Ibrahim, Rania H, Pennington, Michael W, Jin, Lee-Way, Maezawa, Izumi, Wulff, Heike, Nguyen, Hai M, Nguyen, Hai M, di Lucente, Jacopo, Chen, Yi-Je, Cui, Yanjun, Ibrahim, Rania H, Pennington, Michael W, Jin, Lee-Way, Maezawa, Izumi, and Wulff, Heike

Abstract

Microglia-mediated inflammation exerts adverse effects in ischemic stroke and in neurodegenerative disorders such as Alzheimer's disease (AD). Expression of the voltage-gated potassium channel Kv1.3 is required for microglia activation. Both genetic deletion and pharmacological inhibition of Kv1.3 are effective in reducing microglia activation and the associated inflammatory responses, as well as in improving neurological outcomes in animal models of AD and ischemic stroke. Here we sought to elucidate the molecular mechanisms underlying the therapeutic effects of Kv1.3 inhibition, which remain incompletely understood. Using a combination of whole-cell voltage-clamp electrophysiology and quantitative PCR (qPCR), we first characterized a stimulus-dependent differential expression pattern for Kv1.3 and P2X4, a major ATP-gated cationic channel, both in vitro and in vivo. We then demonstrated by whole-cell current-clamp experiments that Kv1.3 channels contribute not only to setting the resting membrane potential but also play an important role in counteracting excessive membrane potential changes evoked by depolarizing current injections. Similarly, the presence of Kv1.3 channels renders microglia more resistant to depolarization produced by ATP-mediated P2X4 receptor activation. Inhibiting Kv1.3 channels with ShK-223 completely nullified the ability of Kv1.3 to normalize membrane potential changes, resulting in excessive depolarization and reduced calcium transients through P2X4 receptors. Our report thus links Kv1.3 function to P2X4 receptor-mediated signaling as one of the underlying mechanisms by which Kv1.3 blockade reduces microglia-mediated inflammation. While we could confirm previously reported differences between males and females in microglial P2X4 expression, microglial Kv1.3 expression exhibited no gender differences in vitro or in vivo. MAIN POINTS: The voltage-gated K+ channel Kv1.3 regulates microglial membrane potential. Inhibition of Kv1.3 depolarizes m

Published

2020

9. Unique molecular characteristics and microglial origin of Kv1.3 channel–positive brain myeloid cells in Alzheimer’s disease

Author

Ramesha, Supriya, Ramesha, Supriya, Rayaprolu, Sruti, Bowen, Christine A, Giver, Cynthia R, Bitarafan, Sara, Nguyen, Hai M, Gao, Tianwen, Chen, Michael J, Nwabueze, Ngozi, Dammer, Eric B, Engstrom, Amanda K, Xiao, Hailian, Pennati, Andrea, Seyfried, Nicholas T, Katz, David J, Galipeau, Jacques, Wulff, Heike, Waller, Edmund K, Wood, Levi B, Levey, Allan I, Rangaraju, Srikant, Ramesha, Supriya, Ramesha, Supriya, Rayaprolu, Sruti, Bowen, Christine A, Giver, Cynthia R, Bitarafan, Sara, Nguyen, Hai M, Gao, Tianwen, Chen, Michael J, Nwabueze, Ngozi, Dammer, Eric B, Engstrom, Amanda K, Xiao, Hailian, Pennati, Andrea, Seyfried, Nicholas T, Katz, David J, Galipeau, Jacques, Wulff, Heike, Waller, Edmund K, Wood, Levi B, Levey, Allan I, and Rangaraju, Srikant

Published

2021

10. Kv1.3 inhibition attenuates neuroinflammation through disruption of microglial calcium signaling.

Author

Fomina, Alla F, Fomina, Alla F, Nguyen, Hai M, Wulff, Heike, Fomina, Alla F, Fomina, Alla F, Nguyen, Hai M, and Wulff, Heike

Abstract

In the last 5 years inhibitors of the potassium channel KV1.3 have been shown to reduce neuroinflammation in rodent models of ischemic stroke, Alzheimer's disease, Parkinson's disease and traumatic brain injury. At the systemic level these beneficial actions are mediated by a reduction in microglia activation and a suppression of pro-inflammatory cytokine and nitric oxide production. However, the molecular mechanisms for the suppressive action of KV1.3 blockers on pro-inflammatory microglia functions was not known until our group recently demonstrated that KV1.3 channels not only regulate membrane potential, as would be expected of a voltage-gated potassium channel, but also play a crucial role in enabling microglia to resist depolarizations produced by the danger signal ATP thus regulating calcium influx through P2X4 receptors. We here review the role of KV1.3 in microglial signaling and show that, similarly to their role in T cells, KV1.3 channels also regulated store-operated calcium influx in microglia.

Published

2021

11. Kv1.3 inhibition attenuates neuroinflammation through disruption of microglial calcium signaling.

Author

Fomina, Alla F, Fomina, Alla F, Nguyen, Hai M, Wulff, Heike, Fomina, Alla F, Fomina, Alla F, Nguyen, Hai M, and Wulff, Heike

Abstract

In the last 5 years inhibitors of the potassium channel KV1.3 have been shown to reduce neuroinflammation in rodent models of ischemic stroke, Alzheimer's disease, Parkinson's disease and traumatic brain injury. At the systemic level these beneficial actions are mediated by a reduction in microglia activation and a suppression of pro-inflammatory cytokine and nitric oxide production. However, the molecular mechanisms for the suppressive action of KV1.3 blockers on pro-inflammatory microglia functions was not known until our group recently demonstrated that KV1.3 channels not only regulate membrane potential, as would be expected of a voltage-gated potassium channel, but also play a crucial role in enabling microglia to resist depolarizations produced by the danger signal ATP thus regulating calcium influx through P2X4 receptors. We here review the role of KV1.3 in microglial signaling and show that, similarly to their role in T cells, KV1.3 channels also regulated store-operated calcium influx in microglia.

Published

2021

12. Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

Author

Sarkar, Souvarish, Sarkar, Souvarish, Nguyen, Hai M, Malovic, Emir, Luo, Jie, Langley, Monica, Palanisamy, Bharathi N, Singh, Neeraj, Manne, Sireesha, Neal, Matthew, Gabrielle, Michelle, Abdalla, Ahmed, Anantharam, Poojya, Rokad, Dharmin, Panicker, Nikhil, Singh, Vikrant, Ay, Muhammet, Charli, Adhithiya, Harischandra, Dilshan, Jin, Lee-Way, Jin, Huajun, Rangaraju, Srikant, Anantharam, Vellareddy, Wulff, Heike, Kanthasamy, Anumantha G, Sarkar, Souvarish, Sarkar, Souvarish, Nguyen, Hai M, Malovic, Emir, Luo, Jie, Langley, Monica, Palanisamy, Bharathi N, Singh, Neeraj, Manne, Sireesha, Neal, Matthew, Gabrielle, Michelle, Abdalla, Ahmed, Anantharam, Poojya, Rokad, Dharmin, Panicker, Nikhil, Singh, Vikrant, Ay, Muhammet, Charli, Adhithiya, Harischandra, Dilshan, Jin, Lee-Way, Jin, Huajun, Rangaraju, Srikant, Anantharam, Vellareddy, Wulff, Heike, and Kanthasamy, Anumantha G

Published

2020

13. Modulation of Lymphocyte Potassium Channel KV1.3 by Membrane-Penetrating, Joint-Targeting Immunomodulatory Plant Defensin.

Author

Ong, Seow Theng, Ong, Seow Theng, Bajaj, Saumya, Tanner, Mark R, Chang, Shih Chieh, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Chen, Ming Wei, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Zhuang, Zhong, Nguyen, Hai M, El Sahili, Abbas, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward G, Goggi, Julian L, Tan, Peng Wen, Sadasivam, Pragalath, Ramasamy, Boominathan, Hartimath, Siddana V, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Pennington, Michael W, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, Chandy, K George, Ong, Seow Theng, Ong, Seow Theng, Bajaj, Saumya, Tanner, Mark R, Chang, Shih Chieh, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Chen, Ming Wei, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Zhuang, Zhong, Nguyen, Hai M, El Sahili, Abbas, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward G, Goggi, Julian L, Tan, Peng Wen, Sadasivam, Pragalath, Ramasamy, Boominathan, Hartimath, Siddana V, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Pennington, Michael W, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, and Chandy, K George

Abstract

We describe a cysteine-rich, membrane-penetrating, joint-targeting, and remarkably stable peptide, EgK5, that modulates voltage-gated KV1.3 potassium channels in T lymphocytes by a distinctive mechanism. EgK5 enters plasma membranes and binds to KV1.3, causing current run-down by a phosphatidylinositol 4,5-bisphosphate-dependent mechanism. EgK5 exhibits selectivity for KV1.3 over other channels, receptors, transporters, and enzymes. EgK5 suppresses antigen-triggered proliferation of effector memory T cells, a subset enriched among pathogenic autoreactive T cells in autoimmune disease. PET-CT imaging with 18F-labeled EgK5 shows accumulation of the peptide in large and small joints of rodents. In keeping with its arthrotropism, EgK5 treats disease in a rat model of rheumatoid arthritis. It was also effective in treating disease in a rat model of atopic dermatitis. No signs of toxicity are observed at 10-100 times the in vivo dose. EgK5 shows promise for clinical development as a therapeutic for autoimmune diseases.

Published

2020

14. Modulation of Lymphocyte Potassium Channel KV1.3 by Membrane-Penetrating, Joint-Targeting Immunomodulatory Plant Defensin.

Author

Ong, Seow Theng, Ong, Seow Theng, Bajaj, Saumya, Tanner, Mark R, Chang, Shih Chieh, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Chen, Ming Wei, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Zhuang, Zhong, Nguyen, Hai M, El Sahili, Abbas, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward G, Goggi, Julian L, Tan, Peng Wen, Sadasivam, Pragalath, Ramasamy, Boominathan, Hartimath, Siddana V, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Pennington, Michael W, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, Chandy, K George, Ong, Seow Theng, Ong, Seow Theng, Bajaj, Saumya, Tanner, Mark R, Chang, Shih Chieh, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Chen, Ming Wei, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Zhuang, Zhong, Nguyen, Hai M, El Sahili, Abbas, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward G, Goggi, Julian L, Tan, Peng Wen, Sadasivam, Pragalath, Ramasamy, Boominathan, Hartimath, Siddana V, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Pennington, Michael W, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, and Chandy, K George

Abstract

We describe a cysteine-rich, membrane-penetrating, joint-targeting, and remarkably stable peptide, EgK5, that modulates voltage-gated KV1.3 potassium channels in T lymphocytes by a distinctive mechanism. EgK5 enters plasma membranes and binds to KV1.3, causing current run-down by a phosphatidylinositol 4,5-bisphosphate-dependent mechanism. EgK5 exhibits selectivity for KV1.3 over other channels, receptors, transporters, and enzymes. EgK5 suppresses antigen-triggered proliferation of effector memory T cells, a subset enriched among pathogenic autoreactive T cells in autoimmune disease. PET-CT imaging with 18F-labeled EgK5 shows accumulation of the peptide in large and small joints of rodents. In keeping with its arthrotropism, EgK5 treats disease in a rat model of rheumatoid arthritis. It was also effective in treating disease in a rat model of atopic dermatitis. No signs of toxicity are observed at 10-100 times the in vivo dose. EgK5 shows promise for clinical development as a therapeutic for autoimmune diseases.

Published

2020

15. Differential Kv1.3, KCa3.1, and Kir2.1 expression in “classically” and “alternatively” activated microglia

Author

Nguyen, Hai M, Nguyen, Hai M, Grössinger, Eva M, Horiuchi, Makoto, Davis, Kyle W, Jin, Lee‐Way, Maezawa, Izumi, Wulff, Heike, Nguyen, Hai M, Nguyen, Hai M, Grössinger, Eva M, Horiuchi, Makoto, Davis, Kyle W, Jin, Lee‐Way, Maezawa, Izumi, and Wulff, Heike

Published

2017

16. Potassium channel expression and function in microglia: Plasticity and possible species variations.

Author

Nguyen, Hai M, Nguyen, Hai M, Blomster, Linda V, Christophersen, Palle, Wulff, Heike, Nguyen, Hai M, Nguyen, Hai M, Blomster, Linda V, Christophersen, Palle, and Wulff, Heike

Abstract

Potassium channels play important roles in microglia functions and thus constitute potential targets for the treatment of neurodegenerative diseases like Alzheimer, Parkinson and stroke. However, uncertainty still prevails as to which potassium channels are expressed and at what levels in different species, how the expression pattern changes upon activation with M1 or M2 polarizing stimuli compared with more complex exposure paradigms, and - most importantly - how these findings relate to the in vivo situation. In this mini-review we discuss the functional potassium channel expression pattern in cultured neonatal mouse microglia in the light of data obtained previously from animal disease models and immunohistochemical studies and compare it with a recent study of adult human microglia isolated from epilepsy patients. Overall, microglial potassium channel expression is very plastic and possibly shows species differences and therefore should be studied carefully in each disease setting and respective animal models.

Published

2017

17. Structural Insights into the Atomistic Mechanisms of Action of Small Molecule Inhibitors Targeting the KCa3.1 Channel Pore.

Author

Nguyen, Hai M, Nguyen, Hai M, Singh, Vikrant, Pressly, Brandon, Jenkins, David Paul, Wulff, Heike, Yarov-Yarovoy, Vladimir, Nguyen, Hai M, Nguyen, Hai M, Singh, Vikrant, Pressly, Brandon, Jenkins, David Paul, Wulff, Heike, and Yarov-Yarovoy, Vladimir

Abstract

The intermediate-conductance Ca2+-activated K+ channel (KCa3.1) constitutes an attractive pharmacological target for immunosuppression, fibroproliferative disorders, atherosclerosis, and stroke. However, there currently is no available crystal structure of this medically relevant channel that could be used for structure-assisted drug design. Using the Rosetta molecular modeling suite we generated a molecular model of the KCa3.1 pore and tested the model by first confirming previously mapped binding sites and visualizing the mechanism of TRAM-34 (1-[(2-chlorophenyl)diphenylmethyl]-1H-pyrazole), senicapoc (2,2-bis-(4-fluorophenyl)-2-phenylacetamide), and NS6180 (4-[[3-(trifluoromethyl)phenyl]methyl]-2H-1,4-benzothiazin-3(4H)-one) inhibition at the atomistic level. All three compounds block ion conduction directly by fully or partially occupying the site that would normally be occupied by K+ before it enters the selectivity filter. We then challenged the model to predict the receptor sites and mechanisms of action of the dihydropyridine nifedipine and an isosteric 4-phenyl-pyran. Rosetta predicted receptor sites for nifedipine in the fenestration region and for the 4-phenyl-pyran in the pore lumen, which could both be confirmed by site-directed mutagenesis and electrophysiology. While nifedipine is thus not a pore blocker and might be stabilizing the channel in a nonconducting conformation or interfere with gating, the 4-phenyl-pyran was found to be a classical pore blocker that directly inhibits ion conduction similar to the triarylmethanes TRAM-34 and senicapoc. The Rosetta KCa3.1 pore model explains the mechanism of action of several KCa3.1 blockers at the molecular level and could be used for structure-assisted drug design.

Published

2017

18. Potassium channel expression and function in microglia: Plasticity and possible species variations.

Author

Nguyen, Hai M, Nguyen, Hai M, Blomster, Linda V, Christophersen, Palle, Wulff, Heike, Nguyen, Hai M, Nguyen, Hai M, Blomster, Linda V, Christophersen, Palle, and Wulff, Heike

Abstract

Potassium channels play important roles in microglia functions and thus constitute potential targets for the treatment of neurodegenerative diseases like Alzheimer, Parkinson and stroke. However, uncertainty still prevails as to which potassium channels are expressed and at what levels in different species, how the expression pattern changes upon activation with M1 or M2 polarizing stimuli compared with more complex exposure paradigms, and - most importantly - how these findings relate to the in vivo situation. In this mini-review we discuss the functional potassium channel expression pattern in cultured neonatal mouse microglia in the light of data obtained previously from animal disease models and immunohistochemical studies and compare it with a recent study of adult human microglia isolated from epilepsy patients. Overall, microglial potassium channel expression is very plastic and possibly shows species differences and therefore should be studied carefully in each disease setting and respective animal models.

Published

2017

19. Structural Insights into the Atomistic Mechanisms of Action of Small Molecule Inhibitors Targeting the KCa3.1 Channel Pore.

Author

Nguyen, Hai M, Nguyen, Hai M, Singh, Vikrant, Pressly, Brandon, Jenkins, David Paul, Wulff, Heike, Yarov-Yarovoy, Vladimir, Nguyen, Hai M, Nguyen, Hai M, Singh, Vikrant, Pressly, Brandon, Jenkins, David Paul, Wulff, Heike, and Yarov-Yarovoy, Vladimir

Abstract

The intermediate-conductance Ca2+-activated K+ channel (KCa3.1) constitutes an attractive pharmacological target for immunosuppression, fibroproliferative disorders, atherosclerosis, and stroke. However, there currently is no available crystal structure of this medically relevant channel that could be used for structure-assisted drug design. Using the Rosetta molecular modeling suite we generated a molecular model of the KCa3.1 pore and tested the model by first confirming previously mapped binding sites and visualizing the mechanism of TRAM-34 (1-[(2-chlorophenyl)diphenylmethyl]-1H-pyrazole), senicapoc (2,2-bis-(4-fluorophenyl)-2-phenylacetamide), and NS6180 (4-[[3-(trifluoromethyl)phenyl]methyl]-2H-1,4-benzothiazin-3(4H)-one) inhibition at the atomistic level. All three compounds block ion conduction directly by fully or partially occupying the site that would normally be occupied by K+ before it enters the selectivity filter. We then challenged the model to predict the receptor sites and mechanisms of action of the dihydropyridine nifedipine and an isosteric 4-phenyl-pyran. Rosetta predicted receptor sites for nifedipine in the fenestration region and for the 4-phenyl-pyran in the pore lumen, which could both be confirmed by site-directed mutagenesis and electrophysiology. While nifedipine is thus not a pore blocker and might be stabilizing the channel in a nonconducting conformation or interfere with gating, the 4-phenyl-pyran was found to be a classical pore blocker that directly inhibits ion conduction similar to the triarylmethanes TRAM-34 and senicapoc. The Rosetta KCa3.1 pore model explains the mechanism of action of several KCa3.1 blockers at the molecular level and could be used for structure-assisted drug design.

Published

2017

20. Conformational Dynamics of the HIV-Vif Protein Complex

Author

Ball, K Aurelia, Ball, K Aurelia, Chan, Lieza M, Stanley, David J, Tierney, Elise, Thapa, Sampriti, Ta, Hai M, Burton, Lily, Binning, Jennifer M, Jacobson, Matthew P, Gross, John D, Ball, K Aurelia, Ball, K Aurelia, Chan, Lieza M, Stanley, David J, Tierney, Elise, Thapa, Sampriti, Ta, Hai M, Burton, Lily, Binning, Jennifer M, Jacobson, Matthew P, and Gross, John D

Published

2019

21. Repurposing the KCa3.1 inhibitor senicapoc for Alzheimer's disease

Author

Jin, Lee‐Way, Jin, Lee‐Way, Di Lucente, Jacopo, Nguyen, Hai M, Singh, Vikrant, Singh, Latika, Chavez, Monique, Bushong, Trevor, Wulff, Heike, Maezawa, Izumi, Jin, Lee‐Way, Jin, Lee‐Way, Di Lucente, Jacopo, Nguyen, Hai M, Singh, Vikrant, Singh, Latika, Chavez, Monique, Bushong, Trevor, Wulff, Heike, and Maezawa, Izumi

Published

2019

22. Structure of Lymphocyte Potassium Channel K v1.3 and Modulation by Cell-Penetrating Immunomodulatory Plant Defensin

Author

Ong, Seow Theng, Ong, Seow Theng, Liu, Sanling, Bajaj, Saumya, Zhao, Yue, Tanner, Mark R, Chang, Shih Chieh, Zhang, Yong, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Ming, Wei Chen, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Nguyen, Hai M, Abbas, El Sahili, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward, Goggi, Julian, Peng, Wen Tan, Sadasivam, Pragalath, Ramasamy, Boominathan, SV, Hartimath, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Zhang, Longhua, Pennington, Michael, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, Tian, Changlin, Chandy, George, Ong, Seow Theng, Ong, Seow Theng, Liu, Sanling, Bajaj, Saumya, Zhao, Yue, Tanner, Mark R, Chang, Shih Chieh, Zhang, Yong, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Ming, Wei Chen, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Nguyen, Hai M, Abbas, El Sahili, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward, Goggi, Julian, Peng, Wen Tan, Sadasivam, Pragalath, Ramasamy, Boominathan, SV, Hartimath, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Zhang, Longhua, Pennington, Michael, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, Tian, Changlin, and Chandy, George

Published

2019

23. Recent advances in our understanding of the structure and function of more unusual cation channels.

Author

Brown, Brandon M, Brown, Brandon M, Nguyen, Hai M, Wulff, Heike, Brown, Brandon M, Brown, Brandon M, Nguyen, Hai M, and Wulff, Heike

Abstract

As their name implies, cation channels allow the regulated flow of cations such as sodium, potassium, calcium, and magnesium across cellular and intracellular membranes. Cation channels have long been known for their fundamental roles in controlling membrane potential and excitability in neurons and muscle. In this review, we provide an update on the recent advances in our understanding of the structure-function relationship and the physiological and pathophysiological role of cation channels. The most exciting developments in the last two years, in our opinion, have been the insights that cryoelectron microscopy has provided into the inner life and the gating of not only voltage-gated channels but also mechanosensitive and calcium- or sodium-activated channels. The mechanosensitive Piezo channels especially have delighted the field not only with a fascinating new type of structure but with important roles in blood pressure regulation and lung function.

Published

2019

24. Structure of Lymphocyte Potassium Channel K v1.3 and Modulation by Cell-Penetrating Immunomodulatory Plant Defensin

Author

Ong, Seow Theng, Ong, Seow Theng, Liu, Sanling, Bajaj, Saumya, Zhao, Yue, Tanner, Mark R, Chang, Shih Chieh, Zhang, Yong, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Ming, Wei Chen, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Nguyen, Hai M, Abbas, El Sahili, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward, Goggi, Julian, Peng, Wen Tan, Sadasivam, Pragalath, Ramasamy, Boominathan, SV, Hartimath, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Zhang, Longhua, Pennington, Michael, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, Tian, Changlin, Chandy, George, Ong, Seow Theng, Ong, Seow Theng, Liu, Sanling, Bajaj, Saumya, Zhao, Yue, Tanner, Mark R, Chang, Shih Chieh, Zhang, Yong, Krishnarjuna, Bankala, Ng, Xuan Rui, Morales, Rodrigo AV, Ming, Wei Chen, Luo, Dahai, Patel, Dharmeshkumar, Yasmin, Sabina, Ng, Jeremy Jun Heng, Nguyen, Hai M, Abbas, El Sahili, Lescar, Julien, Patil, Rahul, Charman, Susan A, Robins, Edward, Goggi, Julian, Peng, Wen Tan, Sadasivam, Pragalath, Ramasamy, Boominathan, SV, Hartimath, Dhawan, Vikas, Bednenko, Janna, Colussi, Paul, Wulff, Heike, Zhang, Longhua, Pennington, Michael, Kuyucak, Serdar, Norton, Raymond S, Beeton, Christine, Tian, Changlin, and Chandy, George

Published

2019

25. Recent advances in our understanding of the structure and function of more unusual cation channels.

Author

Brown, Brandon M, Brown, Brandon M, Nguyen, Hai M, Wulff, Heike, Brown, Brandon M, Brown, Brandon M, Nguyen, Hai M, and Wulff, Heike

Abstract

As their name implies, cation channels allow the regulated flow of cations such as sodium, potassium, calcium, and magnesium across cellular and intracellular membranes. Cation channels have long been known for their fundamental roles in controlling membrane potential and excitability in neurons and muscle. In this review, we provide an update on the recent advances in our understanding of the structure-function relationship and the physiological and pathophysiological role of cation channels. The most exciting developments in the last two years, in our opinion, have been the insights that cryoelectron microscopy has provided into the inner life and the gating of not only voltage-gated channels but also mechanosensitive and calcium- or sodium-activated channels. The mechanosensitive Piezo channels especially have delighted the field not only with a fascinating new type of structure but with important roles in blood pressure regulation and lung function.

Published

2019

26. The voltage-gated potassium channel Kv1.3 is required for microglial pro-inflammatory activation in vivo.

Author

Di Lucente, Jacopo, Di Lucente, Jacopo, Nguyen, Hai M, Wulff, Heike, Jin, Lee-Way, Maezawa, Izumi, Di Lucente, Jacopo, Di Lucente, Jacopo, Nguyen, Hai M, Wulff, Heike, Jin, Lee-Way, and Maezawa, Izumi

Published

2018

27. Kv1.3 inhibition as a potential microglia-targeted therapy for Alzheimer's disease: preclinical proof of concept.

Author

Maezawa, Izumi, Maezawa, Izumi, Nguyen, Hai M, Di Lucente, Jacopo, Jenkins, David Paul, Singh, Vikrant, Hilt, Silvia, Kim, Kyoungmi, Rangaraju, Srikant, Levey, Allan I, Wulff, Heike, Jin, Lee-Way, Maezawa, Izumi, Maezawa, Izumi, Nguyen, Hai M, Di Lucente, Jacopo, Jenkins, David Paul, Singh, Vikrant, Hilt, Silvia, Kim, Kyoungmi, Rangaraju, Srikant, Levey, Allan I, Wulff, Heike, and Jin, Lee-Way

Published

2018

28. Inhibition of the potassium channel Kv1.3 reduces infarction and inflammation in ischemic stroke

Author

Chen, Yi‐Je, Chen, Yi‐Je, Nguyen, Hai M, Maezawa, Izumi, Jin, Lee‐Way, Wulff, Heike, Chen, Yi‐Je, Chen, Yi‐Je, Nguyen, Hai M, Maezawa, Izumi, Jin, Lee‐Way, and Wulff, Heike

Published

2018

29. The voltage‐gated potassium channel Kv1.3 is required for microglial pro‐inflammatory activation in vivo

Author

Di Lucente, Jacopo, Di Lucente, Jacopo, Nguyen, Hai M, Wulff, Heike, Jin, Lee‐Way, Maezawa, Izumi, Di Lucente, Jacopo, Di Lucente, Jacopo, Nguyen, Hai M, Wulff, Heike, Jin, Lee‐Way, and Maezawa, Izumi

Published

2018

30. Kv1.3 inhibition as a potential microglia-targeted therapy for Alzheimer’s disease: preclinical proof of concept

Author

Maezawa, Izumi, Maezawa, Izumi, Nguyen, Hai M, Di Lucente, Jacopo, Jenkins, David Paul, Singh, Vikrant, Hilt, Silvia, Kim, Kyoungmi, Rangaraju, Srikant, Levey, Allan I, Wulff, Heike, Jin, Lee-Way, Maezawa, Izumi, Maezawa, Izumi, Nguyen, Hai M, Di Lucente, Jacopo, Jenkins, David Paul, Singh, Vikrant, Hilt, Silvia, Kim, Kyoungmi, Rangaraju, Srikant, Levey, Allan I, Wulff, Heike, and Jin, Lee-Way

Published

2018

31. GABAA receptor subtype selectivity of the proconvulsant rodenticide TETS

Author

Pressly, Brandon, Pressly, Brandon, Nguyen, Hai M, Wulff, Heike, Pressly, Brandon, Pressly, Brandon, Nguyen, Hai M, and Wulff, Heike

Published

2018

32. Fab-based inhibitors reveal ubiquitin independent functions for HIV Vif neutralization of APOBEC3 restriction factors.

Author

Binning, Jennifer M, Binning, Jennifer M, Smith, Amber M, Hultquist, Judd F, Craik, Charles S, Caretta Cartozo, Nathalie, Campbell, Melody G, Burton, Lily, La Greca, Florencia, McGregor, Michael J, Ta, Hai M, Bartholomeeusen, Koen, Peterlin, B Matija, Krogan, Nevan J, Sevillano, Natalia, Cheng, Yifan, Gross, John D, Binning, Jennifer M, Binning, Jennifer M, Smith, Amber M, Hultquist, Judd F, Craik, Charles S, Caretta Cartozo, Nathalie, Campbell, Melody G, Burton, Lily, La Greca, Florencia, McGregor, Michael J, Ta, Hai M, Bartholomeeusen, Koen, Peterlin, B Matija, Krogan, Nevan J, Sevillano, Natalia, Cheng, Yifan, and Gross, John D

Abstract

The lentiviral protein Viral Infectivity Factor (Vif) counteracts the antiviral effects of host APOBEC3 (A3) proteins and contributes to persistent HIV infection. Vif targets A3 restriction factors for ubiquitination and proteasomal degradation by recruiting them to a multi-protein ubiquitin E3 ligase complex. Here, we describe a degradation-independent mechanism of Vif-mediated antagonism that was revealed through detailed structure-function studies of antibody antigen-binding fragments (Fabs) to the Vif complex. Two Fabs were found to inhibit Vif-mediated A3 neutralization through distinct mechanisms: shielding A3 from ubiquitin transfer and blocking Vif E3 assembly. Combined biochemical, cell biological and structural studies reveal that disruption of Vif E3 assembly inhibited A3 ubiquitination but was not sufficient to restore its packaging into viral particles and antiviral activity. These observations establish that Vif can neutralize A3 family members in a degradation-independent manner. Additionally, this work highlights the potential of Fabs as functional probes, and illuminates how Vif uses a multi-pronged approach involving both degradation dependent and independent mechanisms to suppress A3 innate immunity.

Published

2018

33. A multiplatform strategy for the discovery of conventional monoclonal antibodies that inhibit the voltage-gated potassium channel Kv1.3.

Author

Bednenko, Janna, Bednenko, Janna, Harriman, Rian, Mariën, Lore, Nguyen, Hai M, Agrawal, Alka, Papoyan, Ashot, Bisharyan, Yelena, Cardarelli, Joanna, Cassidy-Hanley, Donna, Clark, Ted, Pedersen, Darlene, Abdiche, Yasmina, Harriman, William, van der Woning, Bas, de Haard, Hans, Collarini, Ellen, Wulff, Heike, Colussi, Paul, Bednenko, Janna, Bednenko, Janna, Harriman, Rian, Mariën, Lore, Nguyen, Hai M, Agrawal, Alka, Papoyan, Ashot, Bisharyan, Yelena, Cardarelli, Joanna, Cassidy-Hanley, Donna, Clark, Ted, Pedersen, Darlene, Abdiche, Yasmina, Harriman, William, van der Woning, Bas, de Haard, Hans, Collarini, Ellen, Wulff, Heike, and Colussi, Paul

Abstract

Identifying monoclonal antibodies that block human voltage-gated ion channels (VGICs) is a challenging endeavor exacerbated by difficulties in producing recombinant ion channel proteins in amounts that support drug discovery programs. We have developed a general strategy to address this challenge by combining high-level expression of recombinant VGICs in Tetrahymena thermophila with immunization of phylogenetically diverse species and unique screening tools that allow deep-mining for antibodies that could potentially bind functionally important regions of the protein. Using this approach, we targeted human Kv1.3, a voltage-gated potassium channel widely recognized as a therapeutic target for the treatment of a variety of T-cell mediated autoimmune diseases. Recombinant Kv1.3 was used to generate and recover 69 full-length anti-Kv1.3 mAbs from immunized chickens and llamas, of which 10 were able to inhibit Kv1.3 current. Select antibodies were shown to be potent (IC50<10 nM) and specific for Kv1.3 over related Kv1 family members, hERG and hNav1.5.

Published

2018

34. Fab-based inhibitors reveal ubiquitin independent functions for HIV Vif neutralization of APOBEC3 restriction factors.

Author

Binning, Jennifer M, Ross, Susan R1, Binning, Jennifer M, Smith, Amber M, Hultquist, Judd F, Craik, Charles S, Caretta Cartozo, Nathalie, Campbell, Melody G, Burton, Lily, La Greca, Florencia, McGregor, Michael J, Ta, Hai M, Bartholomeeusen, Koen, Peterlin, B Matija, Krogan, Nevan J, Sevillano, Natalia, Cheng, Yifan, Gross, John D, Binning, Jennifer M, Ross, Susan R1, Binning, Jennifer M, Smith, Amber M, Hultquist, Judd F, Craik, Charles S, Caretta Cartozo, Nathalie, Campbell, Melody G, Burton, Lily, La Greca, Florencia, McGregor, Michael J, Ta, Hai M, Bartholomeeusen, Koen, Peterlin, B Matija, Krogan, Nevan J, Sevillano, Natalia, Cheng, Yifan, and Gross, John D

Abstract

The lentiviral protein Viral Infectivity Factor (Vif) counteracts the antiviral effects of host APOBEC3 (A3) proteins and contributes to persistent HIV infection. Vif targets A3 restriction factors for ubiquitination and proteasomal degradation by recruiting them to a multi-protein ubiquitin E3 ligase complex. Here, we describe a degradation-independent mechanism of Vif-mediated antagonism that was revealed through detailed structure-function studies of antibody antigen-binding fragments (Fabs) to the Vif complex. Two Fabs were found to inhibit Vif-mediated A3 neutralization through distinct mechanisms: shielding A3 from ubiquitin transfer and blocking Vif E3 assembly. Combined biochemical, cell biological and structural studies reveal that disruption of Vif E3 assembly inhibited A3 ubiquitination but was not sufficient to restore its packaging into viral particles and antiviral activity. These observations establish that Vif can neutralize A3 family members in a degradation-independent manner. Additionally, this work highlights the potential of Fabs as functional probes, and illuminates how Vif uses a multi-pronged approach involving both degradation dependent and independent mechanisms to suppress A3 innate immunity.

Published

2018

35. A multiplatform strategy for the discovery of conventional monoclonal antibodies that inhibit the voltage-gated potassium channel Kv1.3.

Author

Bednenko, Janna, Bednenko, Janna, Harriman, Rian, Mariën, Lore, Nguyen, Hai M, Agrawal, Alka, Papoyan, Ashot, Bisharyan, Yelena, Cardarelli, Joanna, Cassidy-Hanley, Donna, Clark, Ted, Pedersen, Darlene, Abdiche, Yasmina, Harriman, William, van der Woning, Bas, de Haard, Hans, Collarini, Ellen, Wulff, Heike, Colussi, Paul, Bednenko, Janna, Bednenko, Janna, Harriman, Rian, Mariën, Lore, Nguyen, Hai M, Agrawal, Alka, Papoyan, Ashot, Bisharyan, Yelena, Cardarelli, Joanna, Cassidy-Hanley, Donna, Clark, Ted, Pedersen, Darlene, Abdiche, Yasmina, Harriman, William, van der Woning, Bas, de Haard, Hans, Collarini, Ellen, Wulff, Heike, and Colussi, Paul

Abstract

Identifying monoclonal antibodies that block human voltage-gated ion channels (VGICs) is a challenging endeavor exacerbated by difficulties in producing recombinant ion channel proteins in amounts that support drug discovery programs. We have developed a general strategy to address this challenge by combining high-level expression of recombinant VGICs in Tetrahymena thermophila with immunization of phylogenetically diverse species and unique screening tools that allow deep-mining for antibodies that could potentially bind functionally important regions of the protein. Using this approach, we targeted human Kv1.3, a voltage-gated potassium channel widely recognized as a therapeutic target for the treatment of a variety of T-cell mediated autoimmune diseases. Recombinant Kv1.3 was used to generate and recover 69 full-length anti-Kv1.3 mAbs from immunized chickens and llamas, of which 10 were able to inhibit Kv1.3 current. Select antibodies were shown to be potent (IC50<10 nM) and specific for Kv1.3 over related Kv1 family members, hERG and hNav1.5.

Published

2018

36. COHERENT Collaboration data release from the first observation of coherent elastic neutrino-nucleus scattering

Author

COHERENT Collaboration, Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Blackston, M. A., Bolozdynya, A., Brown, A., Burenkov, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Daughhetee, J., Dean, D. J., Coello, M. del Valle, Detwiler, J., D'Onofrio, M., Eberhardt, A., Efremenko, Y., Elliott, S. R., Etenko, A., Fabris, L., Febbraro, M., Fields, N., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaemingk, M., Kaufman, L. J., Klein, S. R., Khromov, A., Ki, S., Konovalov, A., Kovalenko, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Melikyan, Y., Miller, K., Moreno, H., Mueller, P. E., Naumov, P., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Radford, D. C., Rapp, R., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Salvat, D. J., Scholberg, K., Scholz, B., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zderic, A., Zettlemoyer, J., COHERENT Collaboration, Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Blackston, M. A., Bolozdynya, A., Brown, A., Burenkov, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Daughhetee, J., Dean, D. J., Coello, M. del Valle, Detwiler, J., D'Onofrio, M., Eberhardt, A., Efremenko, Y., Elliott, S. R., Etenko, A., Fabris, L., Febbraro, M., Fields, N., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaemingk, M., Kaufman, L. J., Klein, S. R., Khromov, A., Ki, S., Konovalov, A., Kovalenko, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Melikyan, Y., Miller, K., Moreno, H., Mueller, P. E., Naumov, P., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Radford, D. C., Rapp, R., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Salvat, D. J., Scholberg, K., Scholz, B., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zderic, A., and Zettlemoyer, J.

Abstract

This release includes data and information necessary to perform independent analyses of the COHERENT result presented in Akimov et al., arXiv:1708.01294 [nucl-ex]. Data is shared in a binned, text-based format, including both "signal" and "background" regions, so that counts and associated uncertainties can be quantitatively calculated for the purpose of separate analyses. This document describes the included information and its format, offering some guidance on use of the data. Accompanying code examples show basic interaction with the data using Python.

Published

2018

37. COHERENT Collaboration data release from the first observation of coherent elastic neutrino-nucleus scattering

Author

COHERENT Collaboration, Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Blackston, M. A., Bolozdynya, A., Brown, A., Burenkov, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Daughhetee, J., Dean, D. J., Coello, M. del Valle, Detwiler, J., D'Onofrio, M., Eberhardt, A., Efremenko, Y., Elliott, S. R., Etenko, A., Fabris, L., Febbraro, M., Fields, N., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaemingk, M., Kaufman, L. J., Klein, S. R., Khromov, A., Ki, S., Konovalov, A., Kovalenko, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Melikyan, Y., Miller, K., Moreno, H., Mueller, P. E., Naumov, P., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Radford, D. C., Rapp, R., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Salvat, D. J., Scholberg, K., Scholz, B., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zderic, A., Zettlemoyer, J., COHERENT Collaboration, Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Blackston, M. A., Bolozdynya, A., Brown, A., Burenkov, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Daughhetee, J., Dean, D. J., Coello, M. del Valle, Detwiler, J., D'Onofrio, M., Eberhardt, A., Efremenko, Y., Elliott, S. R., Etenko, A., Fabris, L., Febbraro, M., Fields, N., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaemingk, M., Kaufman, L. J., Klein, S. R., Khromov, A., Ki, S., Konovalov, A., Kovalenko, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Melikyan, Y., Miller, K., Moreno, H., Mueller, P. E., Naumov, P., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Radford, D. C., Rapp, R., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Salvat, D. J., Scholberg, K., Scholz, B., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zderic, A., and Zettlemoyer, J.

Abstract

This release includes data and information necessary to perform independent analyses of the COHERENT result presented in Akimov et al., arXiv:1708.01294 [nucl-ex]. Data is shared in a binned, text-based format, including both "signal" and "background" regions, so that counts and associated uncertainties can be quantitatively calculated for the purpose of separate analyses. This document describes the included information and its format, offering some guidance on use of the data. Accompanying code examples show basic interaction with the data using Python.

Published

2018

38. Observation of Coherent Elastic Neutrino-Nucleus Scattering

Author

Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., Zderic, A. M., Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., and Zderic, A. M.

Abstract

The coherent elastic scattering of neutrinos off nuclei has eluded detection for four decades, even though its predicted cross-section is the largest by far of all low-energy neutrino couplings. This mode of interaction provides new opportunities to study neutrino properties, and leads to a miniaturization of detector size, with potential technological applications. We observe this process at a 6.7-sigma confidence level, using a low-background, 14.6-kg CsI[Na] scintillator exposed to the neutrino emissions from the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory. Characteristic signatures in energy and time, predicted by the Standard Model for this process, are observed in high signal-to-background conditions. Improved constraints on non-standard neutrino interactions with quarks are derived from this initial dataset.

Published

2017

39. Observation of coherent elastic neutrino-nucleus scattering

Author

Akimov, D, Akimov, D, Albert, JB, An, P, Awe, C, Barbeau, PS, Becker, B, Belov, V, Brown, A, Bolozdynya, A, Cabrera-Palmer, B, Cervantes, M, Collar, JI, Cooper, RJ, Cooper, RL, Cuesta, C, Dean, DJ, Detwiler, JA, Eberhardt, A, Efremenko, Y, Elliott, SR, Erkela, EM, Fabris, L, Febbraro, M, Fields, NE, Fox, W, Fu, Z, Galindo-Uribarri, A, Green, MP, Hai, M, Heath, MR, Hedges, S, Hornback, D, Hossbach, TW, Iverson, EB, Kaufman, LJ, Ki, S, Klein, SR, Khromov, A, Konovalov, A, Kremer, M, Kumpan, A, Leadbetter, C, Li, L, Lu, W, Mann, K, Markoff, DM, Miller, K, Moreno, H, Mueller, PE, Newby, J, Orrell, JL, Overman, CT, Parno, DS, Penttila, S, Perumpilly, G, Ray, H, Raybern, J, Reyna, D, Rich, GC, Rimal, D, Rudik, D, Scholberg, K, Scholz, BJ, Sinev, G, Snow, WM, Sosnovtsev, V, Shakirov, A, Suchyta, S, Suh, B, Tayloe, R, Thornton, RT, Tolstukhin, I, Vanderwerp, J, Varner, RL, Virtue, CJ, Wan, Z, Yoo, J, Yu, C-H, Zawada, A, Zettlemoyer, J, Zderic, AM, Collaboration, COHERENT, Akimov, D, Akimov, D, Albert, JB, An, P, Awe, C, Barbeau, PS, Becker, B, Belov, V, Brown, A, Bolozdynya, A, Cabrera-Palmer, B, Cervantes, M, Collar, JI, Cooper, RJ, Cooper, RL, Cuesta, C, Dean, DJ, Detwiler, JA, Eberhardt, A, Efremenko, Y, Elliott, SR, Erkela, EM, Fabris, L, Febbraro, M, Fields, NE, Fox, W, Fu, Z, Galindo-Uribarri, A, Green, MP, Hai, M, Heath, MR, Hedges, S, Hornback, D, Hossbach, TW, Iverson, EB, Kaufman, LJ, Ki, S, Klein, SR, Khromov, A, Konovalov, A, Kremer, M, Kumpan, A, Leadbetter, C, Li, L, Lu, W, Mann, K, Markoff, DM, Miller, K, Moreno, H, Mueller, PE, Newby, J, Orrell, JL, Overman, CT, Parno, DS, Penttila, S, Perumpilly, G, Ray, H, Raybern, J, Reyna, D, Rich, GC, Rimal, D, Rudik, D, Scholberg, K, Scholz, BJ, Sinev, G, Snow, WM, Sosnovtsev, V, Shakirov, A, Suchyta, S, Suh, B, Tayloe, R, Thornton, RT, Tolstukhin, I, Vanderwerp, J, Varner, RL, Virtue, CJ, Wan, Z, Yoo, J, Yu, C-H, Zawada, A, Zettlemoyer, J, Zderic, AM, and Collaboration, COHERENT

Published

2017

40. Development of Tetramethylenedisulfotetramine (TETS) Hapten Library: Synthesis, Electrophysiological Studies, and Immune Response in Rabbits.

Author

Barnych, Bogdan, Barnych, Bogdan, Vasylieva, Natalia, Joseph, Tom, Hulsizer, Susan, Nguyen, Hai M, Cajka, Tomas, Pessah, Isaac, Wulff, Heike, Gee, Shirley J, Hammock, Bruce D, Barnych, Bogdan, Barnych, Bogdan, Vasylieva, Natalia, Joseph, Tom, Hulsizer, Susan, Nguyen, Hai M, Cajka, Tomas, Pessah, Isaac, Wulff, Heike, Gee, Shirley J, and Hammock, Bruce D

Published

2017

41. Hydroxy-fipronil is a new urinary biomarker of exposure to fipronil.

Author

Vasylieva, Natalia, Vasylieva, Natalia, Barnych, Bogdan, Wan, Debin, El-Sheikh, El-Sayed A, Nguyen, Hai M, Wulff, Heike, McMahen, Rebecca, Strynar, Mark, Gee, Shirley J, Hammock, Bruce D, Vasylieva, Natalia, Vasylieva, Natalia, Barnych, Bogdan, Wan, Debin, El-Sheikh, El-Sayed A, Nguyen, Hai M, Wulff, Heike, McMahen, Rebecca, Strynar, Mark, Gee, Shirley J, and Hammock, Bruce D

Abstract

Occupational medical surveillance is highly desirable in manufacturing facilities where exposure to chemicals is significant. The insecticide fipronil is generally considered safe for humans but with increasing use, exposure to fipronil is of concern. Identification of urinary metabolites of fipronil may allow development of affordable, cheap and rapid procedures for human exposure evaluation. In this study we developed a fast and easy approach for synthesis of hydroxy-fipronil, a potential urinary metabolite of fipronil. This standard was used to develop a sensitive analytical LC-MS/MS method with a limit of quantification (LOQ) of 0.4ng/mL. Fipronil sulfone, a known metabolite, and hydroxy-fipronil were quantified in urine samples from rats treated with a fipronil containing diet. Fipronil sulfone concentration centered around 20ng/mL, while the concentration of hydroxy-fipronil was dose-dependent ranging in 10-10,000ng/mL and thus being a more sensitive marker of fipronil exposure. A fipronil immunoassay with cross-reactivity to hydroxy-fipronil showed a good correlation in signal intensity with LC-MS data. It was also used to demonstrate the applicability of the method for sample screening in the evaluation of exposure levels.

Published

2017

42. Hydroxy-fipronil is a new urinary biomarker of exposure to fipronil.

Author

Vasylieva, Natalia, Vasylieva, Natalia, Barnych, Bogdan, Wan, Debin, El-Sheikh, El-Sayed A, Nguyen, Hai M, Wulff, Heike, McMahen, Rebecca, Strynar, Mark, Gee, Shirley J, Hammock, Bruce D, Vasylieva, Natalia, Vasylieva, Natalia, Barnych, Bogdan, Wan, Debin, El-Sheikh, El-Sayed A, Nguyen, Hai M, Wulff, Heike, McMahen, Rebecca, Strynar, Mark, Gee, Shirley J, and Hammock, Bruce D

Abstract

Occupational medical surveillance is highly desirable in manufacturing facilities where exposure to chemicals is significant. The insecticide fipronil is generally considered safe for humans but with increasing use, exposure to fipronil is of concern. Identification of urinary metabolites of fipronil may allow development of affordable, cheap and rapid procedures for human exposure evaluation. In this study we developed a fast and easy approach for synthesis of hydroxy-fipronil, a potential urinary metabolite of fipronil. This standard was used to develop a sensitive analytical LC-MS/MS method with a limit of quantification (LOQ) of 0.4ng/mL. Fipronil sulfone, a known metabolite, and hydroxy-fipronil were quantified in urine samples from rats treated with a fipronil containing diet. Fipronil sulfone concentration centered around 20ng/mL, while the concentration of hydroxy-fipronil was dose-dependent ranging in 10-10,000ng/mL and thus being a more sensitive marker of fipronil exposure. A fipronil immunoassay with cross-reactivity to hydroxy-fipronil showed a good correlation in signal intensity with LC-MS data. It was also used to demonstrate the applicability of the method for sample screening in the evaluation of exposure levels.

Published

2017

43. Observation of Coherent Elastic Neutrino-Nucleus Scattering

Author

Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., Zderic, A. M., Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., and Zderic, A. M.

Abstract

The coherent elastic scattering of neutrinos off nuclei has eluded detection for four decades, even though its predicted cross-section is the largest by far of all low-energy neutrino couplings. This mode of interaction provides new opportunities to study neutrino properties, and leads to a miniaturization of detector size, with potential technological applications. We observe this process at a 6.7-sigma confidence level, using a low-background, 14.6-kg CsI[Na] scintillator exposed to the neutrino emissions from the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory. Characteristic signatures in energy and time, predicted by the Standard Model for this process, are observed in high signal-to-background conditions. Improved constraints on non-standard neutrino interactions with quarks are derived from this initial dataset.

Published

2017

44. Observation of Coherent Elastic Neutrino-Nucleus Scattering

Author

Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., Zderic, A. M., Akimov, D., Albert, J. B., An, P., Awe, C., Barbeau, P. S., Becker, B., Belov, V., Brown, A., Bolozdynya, A., Cabrera-Palmer, B., Cervantes, M., Collar, J. I., Cooper, R. J., Cooper, R. L., Cuesta, C., Dean, D. J., Detwiler, J. A., Eberhardt, A., Efremenko, Y., Elliott, S. R., Erkela, E. M., Fabris, L., Febbraro, M., Fields, N. E., Fox, W., Fu, Z., Galindo-Uribarri, A., Green, M. P., Hai, M., Heath, M. R., Hedges, S., Hornback, D., Hossbach, T. W., Iverson, E. B., Kaufman, L. J., Ki, S., Klein, S. R., Khromov, A., Konovalov, A., Kremer, M., Kumpan, A., Leadbetter, C., Li, L., Lu, W., Mann, K., Markoff, D. M., Miller, K., Moreno, H., Mueller, P. E., Newby, J., Orrell, J. L., Overman, C. T., Parno, D. S., Penttila, S., Perumpilly, G., Ray, H., Raybern, J., Reyna, D., Rich, G. C., Rimal, D., Rudik, D., Scholberg, K., Scholz, B. J., Sinev, G., Snow, W. M., Sosnovtsev, V., Shakirov, A., Suchyta, S., Suh, B., Tayloe, R., Thornton, R. T., Tolstukhin, I., Vanderwerp, J., Varner, R. L., Virtue, C. J., Wan, Z., Yoo, J., Yu, C. -H., Zawada, A., Zettlemoyer, J., and Zderic, A. M.

Abstract

The coherent elastic scattering of neutrinos off nuclei has eluded detection for four decades, even though its predicted cross-section is the largest by far of all low-energy neutrino couplings. This mode of interaction provides new opportunities to study neutrino properties, and leads to a miniaturization of detector size, with potential technological applications. We observe this process at a 6.7-sigma confidence level, using a low-background, 14.6-kg CsI[Na] scintillator exposed to the neutrino emissions from the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory. Characteristic signatures in energy and time, predicted by the Standard Model for this process, are observed in high signal-to-background conditions. Improved constraints on non-standard neutrino interactions with quarks are derived from this initial dataset.

Published

2017

45. The potassium channel KCa3.1 constitutes a pharmacological target for neuroinflammation associated with ischemia/reperfusion stroke.

Author

Chen, Yi-Je, Chen, Yi-Je, Nguyen, Hai M, Maezawa, Izumi, Grössinger, Eva M, Garing, April L, Köhler, Ralf, Jin, Lee-Way, Wulff, Heike, Chen, Yi-Je, Chen, Yi-Je, Nguyen, Hai M, Maezawa, Izumi, Grössinger, Eva M, Garing, April L, Köhler, Ralf, Jin, Lee-Way, and Wulff, Heike

Abstract

Activated microglia/macrophages significantly contribute to the secondary inflammatory damage in ischemic stroke. Cultured neonatal microglia express the K+ channels Kv1.3 and KCa3.1, both of which have been reported to be involved in microglia-mediated neuronal killing, oxidative burst and cytokine production. However, it is questionable whether neonatal cultures accurately reflect the K+ channel expression of activated microglia in the adult brain. We here subjected mice to middle cerebral artery occlusion with eight days of reperfusion and patch-clamped acutely isolated microglia/macrophages. Microglia from the infarcted area exhibited higher densities of K+ currents with the biophysical and pharmacological properties of Kv1.3, KCa3.1 and Kir2.1 than microglia from non-infarcted control brains. Similarly, immunohistochemistry on human infarcts showed strong Kv1.3 and KCa3.1 immunoreactivity on activated microglia/macrophages. We next investigated the effect of genetic deletion and pharmacological blockade of KCa3.1 in reversible middle cerebral artery occlusion. KCa3.1-/- mice and wild-type mice treated with the KCa3.1 blocker TRAM-34 exhibited significantly smaller infarct areas on day-8 after middle cerebral artery occlusion and improved neurological deficit. Both manipulations reduced microglia/macrophage activation and brain cytokine levels. Our findings suggest KCa3.1 as a pharmacological target for ischemic stroke. Of potential, clinical relevance is that KCa3.1 blockade is still effective when initiated 12 h after the insult.

Published

2016

46. The potassium channel KCa3.1 constitutes a pharmacological target for neuroinflammation associated with ischemia/reperfusion stroke.

Author

Chen, Yi-Je, Chen, Yi-Je, Nguyen, Hai M, Maezawa, Izumi, Grössinger, Eva M, Garing, April L, Köhler, Ralf, Jin, Lee-Way, Wulff, Heike, Chen, Yi-Je, Chen, Yi-Je, Nguyen, Hai M, Maezawa, Izumi, Grössinger, Eva M, Garing, April L, Köhler, Ralf, Jin, Lee-Way, and Wulff, Heike

Abstract

Activated microglia/macrophages significantly contribute to the secondary inflammatory damage in ischemic stroke. Cultured neonatal microglia express the K+ channels Kv1.3 and KCa3.1, both of which have been reported to be involved in microglia-mediated neuronal killing, oxidative burst and cytokine production. However, it is questionable whether neonatal cultures accurately reflect the K+ channel expression of activated microglia in the adult brain. We here subjected mice to middle cerebral artery occlusion with eight days of reperfusion and patch-clamped acutely isolated microglia/macrophages. Microglia from the infarcted area exhibited higher densities of K+ currents with the biophysical and pharmacological properties of Kv1.3, KCa3.1 and Kir2.1 than microglia from non-infarcted control brains. Similarly, immunohistochemistry on human infarcts showed strong Kv1.3 and KCa3.1 immunoreactivity on activated microglia/macrophages. We next investigated the effect of genetic deletion and pharmacological blockade of KCa3.1 in reversible middle cerebral artery occlusion. KCa3.1-/- mice and wild-type mice treated with the KCa3.1 blocker TRAM-34 exhibited significantly smaller infarct areas on day-8 after middle cerebral artery occlusion and improved neurological deficit. Both manipulations reduced microglia/macrophage activation and brain cytokine levels. Our findings suggest KCa3.1 as a pharmacological target for ischemic stroke. Of potential, clinical relevance is that KCa3.1 blockade is still effective when initiated 12 h after the insult.

Published

2016

47. The riluzole derivative 2-amino-6-trifluoromethylthio-benzothiazole (SKA-19), a mixed KCa2 activator and NaV blocker, is a potent novel anticonvulsant.

Author

Coleman, Nichole, Coleman, Nichole, Nguyen, Hai M, Cao, Zhengyu, Brown, Brandon M, Jenkins, David Paul, Zolkowska, Dorota, Chen, Yi-Je, Tanaka, Brian S, Goldin, Alan L, Rogawski, Michael A, Pessah, Isaac N, Wulff, Heike, Coleman, Nichole, Coleman, Nichole, Nguyen, Hai M, Cao, Zhengyu, Brown, Brandon M, Jenkins, David Paul, Zolkowska, Dorota, Chen, Yi-Je, Tanaka, Brian S, Goldin, Alan L, Rogawski, Michael A, Pessah, Isaac N, and Wulff, Heike

Abstract

Inhibitors of voltage-gated sodium channels (Na(v)) have been used as anticonvulsants since the 1940s, while potassium channel activators have only been investigated more recently. We here describe the discovery of 2-amino-6-trifluoromethylthio-benzothiazole (SKA-19), a thioanalog of riluzole, as a potent, novel anticonvulsant, which combines the two mechanisms. SKA-19 is a use-dependent NaV channel blocker and an activator of small-conductance Ca(2+)-activated K(+) channels. SKA-19 reduces action potential firing and increases medium afterhyperpolarization in CA1 pyramidal neurons in hippocampal slices. SKA-19 is orally bioavailable and shows activity in a broad range of rodent seizure models. SKA-19 protects against maximal electroshock-induced seizures in both rats (ED50 1.6 mg/kg i.p.; 2.3 mg/kg p.o.) and mice (ED50 4.3 mg/kg p.o.), and is also effective in the 6-Hz model in mice (ED50 12.2 mg/kg), Frings audiogenic seizure-susceptible mice (ED50 2.2 mg/kg), and the hippocampal kindled rat model of complex partial seizures (ED50 5.5 mg/kg). Toxicity tests for abnormal neurological status revealed a therapeutic index (TD50/ED50) of 6-9 following intraperitoneal and of 33 following oral administration. SKA-19 further reduced acute pain in the formalin pain model and raised allodynic threshold in a sciatic nerve ligation model. The anticonvulsant profile of SKA-19 is comparable to riluzole, which similarly affects Na(V) and KCa2 channels, except that SKA-19 has a ~4-fold greater duration of action owing to more prolonged brain levels. Based on these findings we propose that compounds combining KCa2 channel-activating and Na(v) channel-blocking activity exert broad-spectrum anticonvulsant and analgesic effects.

Published

2015

48. Dark Matter Search Results from the PICO-60 CF$_3$I Bubble Chamber

Author

Amole, C., Ardid, M., Asner, D. M., Baxter, D., Behnke, E., Bhattacharjee, P., Borsodi, H., Bou-Cabo, M., Brice, S. J., Broemmelsiek, D., Clark, K., Collar, J. I., Cooper, P. S., Crisler, M., Dahl, C. E., Daley, S., Das, M., Debris, F., Dhungana, N., Farine, J., Felis, I., Filgas, R., Girard, F., Giroux, G., Grandison, A., Hai, M., Hall, J., Harris, O., Jin, M., Krauss, C. B., Fallows, S., Lafrenière, M., Laurin, M., Lawson, I., Levine, I., Lippincott, W. H., Mann, E., Maurya, D., Mitra, P., Neilson, R., Noble, A. J., Plante, A., Podviianiuk, R. B., Priya, S., Ramberg, E., Robinson, A. E., Rucinski, R., Ruschman, M., Scallon, O., Seth, S., Simon, P., Sonnenschein, A., Štekl, I., Vàzquez-Jàuregui, E., Wells, J., Wichoski, U., Zacek, V., Zhang, J., Shkrob, I. A., Amole, C., Ardid, M., Asner, D. M., Baxter, D., Behnke, E., Bhattacharjee, P., Borsodi, H., Bou-Cabo, M., Brice, S. J., Broemmelsiek, D., Clark, K., Collar, J. I., Cooper, P. S., Crisler, M., Dahl, C. E., Daley, S., Das, M., Debris, F., Dhungana, N., Farine, J., Felis, I., Filgas, R., Girard, F., Giroux, G., Grandison, A., Hai, M., Hall, J., Harris, O., Jin, M., Krauss, C. B., Fallows, S., Lafrenière, M., Laurin, M., Lawson, I., Levine, I., Lippincott, W. H., Mann, E., Maurya, D., Mitra, P., Neilson, R., Noble, A. J., Plante, A., Podviianiuk, R. B., Priya, S., Ramberg, E., Robinson, A. E., Rucinski, R., Ruschman, M., Scallon, O., Seth, S., Simon, P., Sonnenschein, A., Štekl, I., Vàzquez-Jàuregui, E., Wells, J., Wichoski, U., Zacek, V., Zhang, J., and Shkrob, I. A.

Abstract

New data are reported from the operation of the PICO-60 dark matter detector, a bubble chamber filled with 36.8 kg of CF$_3$I and located in the SNOLAB underground laboratory. PICO-60 is the largest bubble chamber to search for dark matter to date. With an analyzed exposure of 92.8 livedays, PICO-60 exhibits the same excellent background rejection observed in smaller bubble chambers. Alpha decays in PICO-60 exhibit frequency-dependent acoustic calorimetry, similar but not identical to that reported recently in a C$_3$F$_8$ bubble chamber. PICO-60 also observes a large population of unknown background events, exhibiting acoustic, spatial, and timing behaviors inconsistent with those expected from a dark matter signal. These behaviors allow for analysis cuts to remove all background events while retaining $48.2\%$ of the exposure. Stringent limits on weakly interacting massive particles interacting via spin-dependent proton and spin-independent processes are set, and most interpretations of the DAMA/LIBRA modulation signal as dark matter interacting with iodine nuclei are ruled out., Comment: v3 to reflect published version

Published

2015

49. Dark Matter Search Results from the PICO-2L C$_3$F$_8$ Bubble Chamber

Author

Amole, C., Ardid, M., Asner, D. M., Baxter, D., Behnke, E., Bhattacharjee, P., Borsodi, H., Bou-Cabo, M., Brice, S. J., Broemmelsiek, D., Clark, K., Collar, J. I., Cooper, P. S., Crisler, M., Dahl, C. E., Daley, S., Das, M., Debris, F., Dhungana, N., Farine, J., Felis, I., Filgas, R., Fines-Neuschild, M., Girard, F., Giroux, G., Hai, M., Hall, J., Harris, O., Jackson, C. M., Jin, M., Krauss, C. B., Lafrenière, M., Laurin, M., Lawson, I., Levine, I., Lippincott, W. H., Mann, E., Martin, J. P., Maurya, D., Mitra, P., Neilson, R., Noble, A. J., Plante, A., Podviianiuk, R. B., Priya, S., Robinson, A. E., Ruschman, M., Scallon, O., Seth, S., Sonnenschein, A., Starinski, N., Štekl, I., Vàzquez-Jaùregui, E., Wells, J., Wichoski, U., Zacek, V., Zhang, J., Amole, C., Ardid, M., Asner, D. M., Baxter, D., Behnke, E., Bhattacharjee, P., Borsodi, H., Bou-Cabo, M., Brice, S. J., Broemmelsiek, D., Clark, K., Collar, J. I., Cooper, P. S., Crisler, M., Dahl, C. E., Daley, S., Das, M., Debris, F., Dhungana, N., Farine, J., Felis, I., Filgas, R., Fines-Neuschild, M., Girard, F., Giroux, G., Hai, M., Hall, J., Harris, O., Jackson, C. M., Jin, M., Krauss, C. B., Lafrenière, M., Laurin, M., Lawson, I., Levine, I., Lippincott, W. H., Mann, E., Martin, J. P., Maurya, D., Mitra, P., Neilson, R., Noble, A. J., Plante, A., Podviianiuk, R. B., Priya, S., Robinson, A. E., Ruschman, M., Scallon, O., Seth, S., Sonnenschein, A., Starinski, N., Štekl, I., Vàzquez-Jaùregui, E., Wells, J., Wichoski, U., Zacek, V., and Zhang, J.

Abstract

New data are reported from the operation of a 2-liter C$_3$F$_8$ bubble chamber in the 2100 meter deep SNOLAB underground laboratory, with a total exposure of 211.5 kg-days at four different recoil energy thresholds ranging from 3.2 keV to 8.1 keV. These data show that C3F8 provides excellent electron recoil and alpha rejection capabilities at very low thresholds, including the first observation of a dependence of acoustic signal on alpha energy. Twelve single nuclear recoil event candidates were observed during the run. The candidate events exhibit timing characteristics that are not consistent with the hypothesis of a uniform time distribution, and no evidence for a dark matter signal is claimed. These data provide the most sensitive direct detection constraints on WIMP-proton spin-dependent scattering to date, with significant sensitivity at low WIMP masses for spin-independent WIMP-nucleon scattering., Comment: 6 pages, 6 figures, v2 to match published version

Published

2015

50. The riluzole derivative 2-amino-6-trifluoromethylthio-benzothiazole (SKA-19), a mixed KCa2 activator and NaV blocker, is a potent novel anticonvulsant.

Author

Coleman, Nichole, Coleman, Nichole, Nguyen, Hai M, Cao, Zhengyu, Brown, Brandon M, Jenkins, David Paul, Zolkowska, Dorota, Chen, Yi-Je, Tanaka, Brian S, Goldin, Alan L, Rogawski, Michael A, Pessah, Isaac N, Wulff, Heike, Coleman, Nichole, Coleman, Nichole, Nguyen, Hai M, Cao, Zhengyu, Brown, Brandon M, Jenkins, David Paul, Zolkowska, Dorota, Chen, Yi-Je, Tanaka, Brian S, Goldin, Alan L, Rogawski, Michael A, Pessah, Isaac N, and Wulff, Heike

Abstract

Inhibitors of voltage-gated sodium channels (Na(v)) have been used as anticonvulsants since the 1940s, while potassium channel activators have only been investigated more recently. We here describe the discovery of 2-amino-6-trifluoromethylthio-benzothiazole (SKA-19), a thioanalog of riluzole, as a potent, novel anticonvulsant, which combines the two mechanisms. SKA-19 is a use-dependent NaV channel blocker and an activator of small-conductance Ca(2+)-activated K(+) channels. SKA-19 reduces action potential firing and increases medium afterhyperpolarization in CA1 pyramidal neurons in hippocampal slices. SKA-19 is orally bioavailable and shows activity in a broad range of rodent seizure models. SKA-19 protects against maximal electroshock-induced seizures in both rats (ED50 1.6 mg/kg i.p.; 2.3 mg/kg p.o.) and mice (ED50 4.3 mg/kg p.o.), and is also effective in the 6-Hz model in mice (ED50 12.2 mg/kg), Frings audiogenic seizure-susceptible mice (ED50 2.2 mg/kg), and the hippocampal kindled rat model of complex partial seizures (ED50 5.5 mg/kg). Toxicity tests for abnormal neurological status revealed a therapeutic index (TD50/ED50) of 6-9 following intraperitoneal and of 33 following oral administration. SKA-19 further reduced acute pain in the formalin pain model and raised allodynic threshold in a sciatic nerve ligation model. The anticonvulsant profile of SKA-19 is comparable to riluzole, which similarly affects Na(V) and KCa2 channels, except that SKA-19 has a ~4-fold greater duration of action owing to more prolonged brain levels. Based on these findings we propose that compounds combining KCa2 channel-activating and Na(v) channel-blocking activity exert broad-spectrum anticonvulsant and analgesic effects.

Published

2015