Your search keyword '"Gunaratne GS"' showing total 24 results

1. Mechanistic Characterization of Cancer-associated Fibroblast Depletion via an Antibody-Drug Conjugate Targeting Fibroblast Activation Protein.

Author

Gallant JP, Hintz HM, Gunaratne GS, Breneman MT, Recchia EE, West JL, Ott KL, Heninger E, Jackson AE, Luo NY, Rosenkrans ZT, Hernandez R, Zhao SG, Lang JM, Meimetis L, Kosoff D, and LeBeau AM

Subjects

Humans, Animals, Mice, Cell Line, Tumor, Serine Endopeptidases metabolism, Serine Endopeptidases genetics, Membrane Proteins genetics, Membrane Proteins metabolism, Xenograft Model Antitumor Assays, Gelatinases metabolism, Gelatinases genetics, Oligopeptides pharmacology, Female, Immunoconjugates pharmacology, Cancer-Associated Fibroblasts metabolism, Cancer-Associated Fibroblasts drug effects, Cancer-Associated Fibroblasts pathology, Cancer-Associated Fibroblasts immunology, Tumor Microenvironment drug effects, Tumor Microenvironment immunology, Endopeptidases genetics, Endopeptidases metabolism

Abstract

Cancer-associated fibroblasts (CAF) are a prominent cell type within the tumor microenvironment (TME) where they are known to promote cancer cell growth and survival, angiogenesis, drug resistance, and immunosuppression. The transmembrane prolyl protease fibroblast activation protein (FAP) is expressed on the surface of highly protumorigenic CAFs found in the stroma of nearly every cancer of epithelial origin. The widespread expression of FAP has made it an attractive therapeutic target based on the underlying hypothesis that eliminating protumorigenic CAFs will disrupt the cross-talk between components of TME resulting in cancer cell death and immune infiltration. This hypothesis, however, has never been directly proven. To eliminate FAP-expressing CAFs, we developed an antibody-drug conjugate using our anti-FAP antibody, huB12, coupled to a monomethyl auristatin E (huB12-MMAE) payload. After determining that huB12 was an effective targeting vector, we found that huB12-MMAE potently eliminated FAP-expressing cells as monocultures in vitro and significantly prolonged survival in vivo using a xenograft engineered to overexpress FAP. We investigated the effects of selectively eliminating CAFs using a layered, open microfluidic cell coculture platform, known as the Stacks. Analysis of mRNA and protein expression found that treatment with huB12-MMAE resulted in the increased secretion of the proinflammatory cytokines IL6 and IL8 by CAFs and an associated increase in expression of proinflammatory genes in cancer cells. We also detected increased secretion of CSF1, a cytokine involved in myeloid recruitment and differentiation. Our findings suggest that the mechanism of FAP-targeted therapies is through effects on the immune microenvironment and antitumor immune response., Significance: The direct elimination of FAP-expressing CAFs disrupts the cross-talk with cancer cells leading to a proinflammatory response and alterations in the immune microenvironment and antitumor immune response., (© 2024 The Authors; Published by the American Association for Cancer Research.)

Published

2024

2. Development of an Engineered Single-Domain Antibody for Targeting MET in Non-Small Cell Lung Cancer.

Author

Luo NY, Minne RL, Gallant JP, Gunaratne GS, West JL, Javeri S, Robertson AJ, Lake EW, Engle JW, Mixdorf JC, Aluicio-Sarduy E, Nickel KP, Hernandez R, Kimple RJ, Baschnagel AM, and LeBeau AM

Subjects

Humans, Positron-Emission Tomography methods, Positron Emission Tomography Computed Tomography, Proto-Oncogene Proteins c-met genetics, Proto-Oncogene Proteins c-met metabolism, Cell Line, Tumor, Carcinoma, Non-Small-Cell Lung pathology, Single-Domain Antibodies, Lung Neoplasms pathology

Abstract

The Mesenchymal Epithelial Transition (MET) receptor tyrosine kinase is upregulated or mutated in 5% of non-small-cell lung cancer (NSCLC) patients and overexpressed in multiple other cancers. We sought to develop a novel single-domain camelid antibody with high affinity for MET that could be used to deliver conjugated payloads to MET expressing cancers. From a naïve camelid variable-heavy-heavy (VHH) domain phage display library, we identified a VHH clone termed 1E7 that displayed high affinity for human MET and was cross-reactive with MET across multiple species. When expressed as a bivalent human Fc fusion protein, 1E7-Fc was found to selectively bind to EBC-1 (MET amplified) and UW-Lung 21 (MET exon 14 mutated) cell lines by flow cytometry and immunofluorescence imaging. Next, we investigated the ability of [ 89 Zr]Zr-1E7-Fc to detect MET expression in vivo by PET/CT imaging. [ 89 Zr]Zr-1E7-Fc demonstrated rapid localization and high tumor uptake in both xenografts with a %ID/g of 6.4 and 5.8 for EBC-1 and UW-Lung 21 at 24 h, respectively. At the 24 h time point, clearance from secondary and nontarget tissues was also observed. Altogether, our data suggest that 1E7-Fc represents a platform technology that can be employed to potentially both image and treat MET-altered NSCLC.

Published

2024

3. Progesterone receptor membrane component 1 facilitates Ca 2+ signal amplification between endosomes and the endoplasmic reticulum.

Author

Gunaratne GS, Kumar S, Lin-Moshier Y, Slama JT, Brailoiu E, Patel S, Walseth TF, and Marchant JS

Subjects

Humans, Calcium metabolism, Calcium Channels genetics, Calcium Channels metabolism, Heme metabolism, Lysosomes metabolism, NADP metabolism, Calcium Signaling, Endoplasmic Reticulum metabolism, Endosomes metabolism, Receptors, Progesterone genetics, Receptors, Progesterone metabolism

Abstract

Membrane contact sites (MCSs) between endosomes and the endoplasmic reticulum (ER) are thought to act as specialized trigger zones for Ca 2+ signaling, where local Ca 2+ released via endolysosomal ion channels is amplified by ER Ca 2+ -sensitive Ca 2+ channels into global Ca 2+ signals. Such amplification is integral to the action of the second messenger, nicotinic acid adenine dinucleotide phosphate (NAADP). However, functional regulators of inter-organellar Ca 2+ crosstalk between endosomes and the ER remain poorly defined. Here, we identify progesterone receptor membrane component 1 (PGRMC1), an ER transmembrane protein that undergoes a unique heme-dependent dimerization, as an interactor of the endosomal two pore channel, TPC1. NAADP-dependent Ca 2+ signals were potentiated by PGRMC1 overexpression through enhanced functional coupling between endosomal and ER Ca 2+ stores and inhibited upon PGRMC1 knockdown. Point mutants in PGMRC1 or pharmacological manipulations that reduced its interaction with TPC1 were without effect. PGRMC1 therefore serves as a TPC1 interactor that regulates ER-endosomal coupling with functional implications for cellular Ca 2+ dynamics and potentially the distribution of heme., Competing Interests: Conflict of interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

4. Convergent activation of two-pore channels mediated by the NAADP-binding proteins JPT2 and LSM12.

Author

Gunaratne GS, Brailoiu E, Kumar S, Yuan Y, Slama JT, Walseth TF, Patel S, and Marchant JS

Subjects

Humans, Endosomes genetics, NADP, Carrier Proteins, Coronavirus Infections, RNA Splicing Factors genetics, RNA Splicing Factors metabolism

Abstract

The second messenger nicotinic acid adenine dinucleotide phosphate (NAADP) evokes calcium ion (Ca 2+ ) release from endosomes and lysosomes by activating two-pore channels (TPCs) on these organelles. Rather than directly binding to TPCs, NAADP associates with proteins that indirectly confer NAADP sensitivity to the TPC complex. We investigated whether and how the NAADP-binding proteins Jupiter microtubule-associated homolog 2 (JPT2) and like-Sm protein 12 (LSM12) contributed to NAADP-TPC-Ca 2+ signaling in human cells. Biochemical and functional analyses revealed that recombinant JPT2 and LSM12 both bound to NAADP with high affinity and that endogenous JPT2 and LSM12 independently associated with TPC1 and TPC2. On the basis of knockout and rescue analyses, both NAADP-binding proteins were required to support NAADP-evoked Ca 2+ signaling and contributed to endolysosomal trafficking of pseudotyped coronavirus particles. These data reveal that the NAADP-binding proteins JPT2 and LSM12 convergently regulate NAADP-evoked Ca 2+ release and function through TPCs.

Published

2023

5. Vitamin C transport in neurons and epithelia is regulated by secretory carrier-associated membrane protein-2 (SCAMP2).

Author

Rashid MA, Lin-Moshier Y, Gunaratne GS, Subramanian S, Marchant JS, and Subramanian VS

Subjects

Humans, HEK293 Cells, Cell Membrane metabolism, Ascorbic Acid pharmacology, Ascorbic Acid metabolism, Neurons metabolism, Protein Transport, Carrier Proteins metabolism, Membrane Proteins genetics, Membrane Proteins metabolism, Proteomics, Sodium-Coupled Vitamin C Transporters genetics, Sodium-Coupled Vitamin C Transporters metabolism

Abstract

The human sodium-dependent vitamin C transporter-1 (hSVCT1) is localized at the apical membrane domain of polarized intestinal and renal epithelial cells to mediate ascorbic acid (AA) uptake. Currently, little is known about the array of interacting proteins that aid hSVCT1 trafficking and functional expression at the cell surface. Here we used an affinity tagging ('One-STrEP') and proteomic approach to identify hSVCT1 interacting proteins, which resolved secretory carrier-associated membrane protein-2 (SCAMP2) as a novel accessary protein partner. SCAMP2 was validated as an accessory protein by co-immunoprecipitation with hSVCT1. Co-expression of hSVCT1 and SCAMP2 in HEK-293 cells revealed both proteins co-localized in intracellular structures and at the plasma membrane. Functionally, over-expression of SCAMP2 potentiated 14 C-AA uptake, and reciprocally silencing endogenous SCAMP2 decreased 14 C-AA uptake. Finally, knockdown of endogenous hSVCT1 or SCAMP2 impaired differentiation of human-induced pluripotent stem cells (hiPSCs) toward a neuronal fate. These results establish SCAMP2 as a novel hSVCT1 accessary protein partner that regulates AA uptake in absorptive epithelia and during neurogenesis., Competing Interests: Declaration of competing interest No potential conflict of interest was reported by the author(s)., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

6. Synthesis and biological evaluation of novel photo-clickable adenosine and cyclic ADP-ribose analogs: 8-N 3 -2'-O-propargyladenosine and 8-N 3 -2'-O-propargyl-cADPR.

Author

Andy D, Gunaratne GS, Marchant JS, Walseth TF, and Slama JT

Subjects

Humans, Adenosine pharmacology, Cyclic ADP-Ribose pharmacology, NAD

Abstract

A photo-clickable analog of adenosine was devised and synthesized in which the photoactive functional group (8-azidoadenosine) and the click moiety (2'-O-propargyl-ether) were compactly combined within the structure of the adenosine nucleoside itself. We synthesized 8-N 3 -2'-O-propargyl adenosine in four steps starting from adenosine. This photo-clickable adenosine was 5'-phosphorylated and coupled to nicotinamide mononucleotide to form the NAD analog 8-N 3 -2'-O-propargyl-NAD. This NAD analog was recognized by Aplysia californica ADP-ribosyl cyclase and enzymatically cyclized producing 8-N 3 -2'-O-propargyl cyclic ADP-ribose. Photo-clickable cyclic-ADP-ribose analog was envisioned as a probe to label cyclic ADP-ribose binding proteins. The monofunctional 8-N 3 -cADPR has previously been shown to be an antagonist of cADPR-induced calcium release [T.F. Walseth et. al., J. Biol. Chem (1993) 268, 26686-26691]. 2'-O-propargyl-cADPR was recognized as an agonist which elicited Ca 2+ release when added at low concentration to sea urchin egg homogenates. The bifunctional 8-N 3 -2'-O-propargyl cyclic ADP-ribose did not elicit Ca 2+ release at low concentration or impact cyclic ADP-ribose mediated Ca 2+ release either when added to sea urchin egg homogenates or when microinjected into cultured human U2OS cells. The photo-clickable adenosine will none-the-less be a useful scaffold for synthesizing photo-clickable probes for identifying proteins that interact with a variety of adenosine nucleotides., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

7. Activation of endo-lysosomal two-pore channels by NAADP and PI(3,5)P 2 . Five things to know.

Author

Patel S, Yuan Y, Gunaratne GS, Rahman T, and Marchant JS

Subjects

Calcium Channels classification, Calcium Channels metabolism, NADP metabolism, Calcium metabolism, Calcium Channels physiology, Endosomes metabolism, Lysosomes metabolism, NADP analogs & derivatives

Abstract

Two-pore channels are ancient members of the voltage-gated ion channel superfamily that are expressed predominantly on acidic organelles such as endosomes and lysosomes. Here we review recent advances in understanding how TPCs are activated by their ligands and identify five salient features: (1) TPCs are Ca 2+ -permeable non-selective cation channels gated by NAADP. (2) NAADP activation is indirect through associated NAADP receptors. (3) TPCs are also Na + -selective channels gated by PI(3,5)P 2 . (4) PI(3,5)P 2 activation is direct through a structurally-resolved binding site. (5) TPCs switch their ion selectivity in an agonist-dependent manner., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2022

8. The ins and outs of virus trafficking through acidic Ca 2+ stores.

Author

Gunaratne GS and Marchant JS

Subjects

Calcium Signaling, Endosomes metabolism, Lysosomes metabolism, NADP metabolism, Calcium metabolism, Viruses metabolism

Abstract

Many viruses exploit host-cell Ca 2+ signaling processes throughout their life cycle. This is especially relevant for viruses that translocate through the endolysosomal system, where cellular infection is keyed to the microenvironment of these acidic Ca 2+ stores and Ca 2+ -dependent trafficking pathways. As regulators of the endolysosomal ionic milieu and trafficking dynamics, two families of endolysosomal Ca 2+ -permeable cation channels - two pore channels (TPCs) and transient receptor potential mucolipins (TRPMLs) - have emerged as important host-cell factors in viral entry. Here, we review: (i) current evidence implicating Ca 2+ signaling in viral translocation through the endolysosomal system, (ii) the roles of these ion channels in supporting cellular infection by different viruses, and (iii) areas for future research that will help define the potential of TPC and TRPML ligands as progressible antiviral agents., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

9. NAADP-binding proteins find their identity.

Author

Marchant JS, Gunaratne GS, Cai X, Slama JT, and Patel S

Subjects

Calcium metabolism, Calcium Signaling physiology, Lysosomes metabolism, NADP analogs & derivatives, NADP metabolism, Calcium Channels metabolism, Carrier Proteins metabolism

Abstract

Nicotinic acid adenine dinucleotide phosphate (NAADP) is a second messenger that releases Ca 2+ from endosomes and lysosomes by activating ion channels called two-pore channels (TPCs). However, no NAADP-binding site has been identified on TPCs. Rather, NAADP activates TPCs indirectly by engaging NAADP-binding proteins (NAADP-BPs) that form part of the TPC complex. After a decade of searching, two different NAADP-BPs were recently identified: Jupiter microtubule associated homolog 2 (JPT2) and like-Sm protein 12 (LSM12). These discoveries bridge the gap between NAADP generation and NAADP activation of TPCs, providing new opportunity to understand and manipulate the NAADP-signaling pathway. The unmasking of these NAADP-BPs will catalyze future studies to define the molecular choreography of NAADP action., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

10. Identification of a dihydropyridine scaffold that blocks ryanodine receptors.

Author

Gunaratne GS, Rebbeck RT, McGurran LM, Yan Y, Arzua T, Frolkis T, Sprague DJ, Bai X, Cornea RL, Walseth TF, and Marchant JS

Abstract

Ryanodine receptors (RyRs) are large, intracellular ion channels that control Ca 2+ release from the sarco/endoplasmic reticulum. Dysregulation of RyRs in skeletal muscle, heart, and brain has been implicated in various muscle pathologies, arrhythmia, heart failure, and Alzheimer's disease. Therefore, there is considerable interest in therapeutically targeting RyRs to normalize Ca 2+ homeostasis in scenarios involving RyR dysfunction. Here, a simple invertebrate screening platform was used to discover new chemotypes targeting RyRs. The approach measured Ca 2+ signals evoked by cyclic adenosine 5'-diphosphate ribose, a second messenger that sensitizes RyRs. From a 1,534-compound screen, FLI-06 (currently described as a Notch "inhibitor") was identified as a potent blocker of RyR activity. Two closely related tyrosine kinase inhibitors that stimulate and inhibit Ca 2+ release through RyRs were also resolved. Therefore, this simple screen yielded RyR scaffolds tractable for development and revealed an unexpected linkage between RyRs and trafficking events in the early secretory pathway., Competing Interests: RLC holds equity in and serves as an executive officer for Photonic Pharma LLC. This relationship has been reviewed and managed by the University of Minnesota. Photonic Pharma had no role in this study, except to provide access to instrumentation. G.S.G., R.T.R., L.M.M., Y.Y., T.A., T.F., D.J.S., X.B., T.F.W., and J.S.M. have no conflicts of interest to disclose., (© 2021 The Author(s).)

Published

2021

11. Mechanisms of SARS-CoV-2 neutralization by shark variable new antigen receptors elucidated through X-ray crystallography.

Author

Ubah OC, Lake EW, Gunaratne GS, Gallant JP, Fernie M, Robertson AJ, Marchant JS, Bold TD, Langlois RA, Matchett WE, Thiede JM, Shi K, Yin L, Moeller NH, Banerjee S, Ferguson L, Kovaleva M, Porter AJ, Aihara H, LeBeau AM, and Barelle CJ

Subjects

Angiotensin-Converting Enzyme 2, Animals, COVID-19, Epitopes, Mutation, Phylogeny, Protein Binding, SARS-CoV-2, Sequence Alignment, Single-Domain Antibodies, Spike Glycoprotein, Coronavirus immunology, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Crystallography, X-Ray, Receptors, Antigen chemistry, Receptors, Antigen immunology, Sharks immunology

Abstract

Single-domain Variable New Antigen Receptors (VNARs) from the immune system of sharks are the smallest naturally occurring binding domains found in nature. Possessing flexible paratopes that can recognize protein motifs inaccessible to classical antibodies, VNARs have yet to be exploited for the development of SARS-CoV-2 therapeutics. Here, we detail the identification of a series of VNARs from a VNAR phage display library screened against the SARS-CoV-2 receptor binding domain (RBD). The ability of the VNARs to neutralize pseudotype and authentic live SARS-CoV-2 virus rivalled or exceeded that of full-length immunoglobulins and other single-domain antibodies. Crystallographic analysis of two VNARs found that they recognized separate epitopes on the RBD and had distinctly different mechanisms of virus neutralization unique to VNARs. Structural and biochemical data suggest that VNARs would be effective therapeutic agents against emerging SARS-CoV-2 mutants, including the Delta variant, and coronaviruses across multiple phylogenetic lineages. This study highlights the utility of VNARs as effective therapeutics against coronaviruses and may serve as a critical milestone for nearing a paradigm shift of the greater biologic landscape., (© 2021. The Author(s).)

Published

2021

12. NAADP receptors: A one-two.

Author

Patel S, Gunaratne GS, Marchant JS, Biggin PC, and Rahman T

Subjects

Calcium Signaling, NADP analogs & derivatives, NADP metabolism, Calcium metabolism, Calcium Channels metabolism

Published

2021

13. Calsyntenin-3 interacts with the sodium-dependent vitamin C transporter-2 to regulate vitamin C uptake.

Author

Subramanian VS, Teafatiller T, Vidal J, Gunaratne GS, Rodriguez-Ortiz CJ, Kitazawa M, and Marchant JS

Subjects

Animals, Cell Line, Gene Expression, Hippocampus metabolism, Humans, Mice, Neurons metabolism, Protein Binding, Two-Hybrid System Techniques, Ascorbic Acid metabolism, Calcium-Binding Proteins metabolism, Membrane Proteins metabolism, Sodium-Coupled Vitamin C Transporters metabolism

Abstract

Ascorbic acid (AA) uptake in neurons occurs via a Na + -dependent carrier-mediated process mediated by the sodium-dependent vitamin C transporter-2 (SVCT2). Relatively little information is available concerning the network of interacting proteins that support human (h)SVCT2 trafficking and cell surface expression in neuronal cells. Here we identified the synaptogenic adhesion protein, calsyntenin-3 (CLSTN3) as an hSVCT2 interacting protein from yeast two-hybrid (Y2H) screening of a human adult brain cDNA library. This interaction was confirmed by co-immunoprecipitation, mammalian two-hybrid (M2H), and co-localization in human cell lines. Co-expression of hCLSTN3 with hSVCT2 in SH-SY5Y cells led to a marked increase in AA uptake. Reciprocally, siRNA targeting hCLSTN3 inhibited AA uptake. In the J20 mouse model of Alzheimer's disease (AD), mouse (m)SVCT2 and mCLSTN3 expression levels in hippocampus were decreased. Similarly, expression levels of hSVCT2 and hCLSTN3 were markedly decreased in hippocampal samples from AD patients. These findings establish CLSTN3 as a novel hSVCT2 interactor in neuronal cells with potential pathophysiological significance., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

14. Essential requirement for JPT2 in NAADP-evoked Ca 2+ signaling.

Author

Gunaratne GS, Brailoiu E, He S, Unterwald EM, Patel S, Slama JT, Walseth TF, and Marchant JS

Subjects

Affinity Labels, Animals, Calcium Channels metabolism, Carrier Proteins metabolism, Click Chemistry methods, Gene Knockdown Techniques, HEK293 Cells, Humans, Microtubule-Associated Proteins antagonists & inhibitors, Microtubule-Associated Proteins genetics, NADP metabolism, Recombinant Proteins genetics, Recombinant Proteins metabolism, Second Messenger Systems physiology, Transcriptome, Virus Internalization, COVID-19 metabolism, COVID-19 virology, Calcium Signaling physiology, Microtubule-Associated Proteins metabolism, NADP analogs & derivatives, SARS-CoV-2 physiology

Abstract

Nicotinic acid adenine dinucleotide phosphate (NAADP) is a second messenger that releases Ca 2+ from acidic organelles through the activation of two-pore channels (TPCs) to regulate endolysosomal trafficking events. NAADP action is mediated by NAADP-binding protein(s) of unknown identity that confer NAADP sensitivity to TPCs. Here, we used a "clickable" NAADP-based photoprobe to isolate human NAADP-binding proteins and identified Jupiter microtubule-associated homolog 2 (JPT2) as a TPC accessory protein required for endogenous NAADP-evoked Ca 2+ signaling. JPT2 was also required for the translocation of a severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pseudovirus through the endolysosomal system. Thus, JPT2 is a component of the NAADP receptor complex that is essential for TPC-dependent Ca 2+ signaling and control of coronaviral entry., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

15. Chemo-enzymatic synthesis of adenine substituted nicotinic acid adenine dinucleotide phosphate (NAADP) analogs.

Author

Su P, Bretz JD, Gunaratne GS, Marchant JS, Walseth TF, and Slama JT

Subjects

Animals, Calcium metabolism, Dose-Response Relationship, Drug, Humans, Molecular Structure, NADP chemical synthesis, NADP chemistry, Phosphotransferases (Alcohol Group Acceptor) genetics, Phosphotransferases (Alcohol Group Acceptor) isolation & purification, Phosphotransferases (Alcohol Group Acceptor) metabolism, Sea Urchins, Structure-Activity Relationship, Adenine chemistry, NADP analogs & derivatives

Abstract

Nicotinamide adenine dinucleotide phosphate (NADP) is an indispensable metabolic co-substrate and nicotinic acid adenine dinucleotide phosphate (NAADP) is an important Ca 2+ releasing intracellular second messenger. Exploration of the NADP and NAADP interactome often requires the synthesis of NADP derivatives substituted on the adenosine nucleoside. The introduction of the 2'-phosphate of NADP makes the synthesis of substituted NADP derivatives difficult. We have employed recombinant human NAD kinase expressed in E. coli as an enzymatic reagent to convert readily available synthetic NAD derivatives to NADP analogs, which were subsequently transformed into NAADP derivatives using enzyme catalyzed pyridine base exchange. 8-Ethynyl-NADP, 8-ethynyl-NAADP and 5-N 3 -8-ethynyl-NAADP were synthesized starting from a protected 8-ethynyladenosine using a combination of chemical and enzymatic steps and the NAADP derivatives shown to be recognized by the sea urchin NAADP receptor at low concentration. Our methodology will enable researchers to produce mono- and bi-substituted NADP and NAADP analogs that can be applied in proteomic studies to identify NADP and NAADP binding proteins., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

16. The anthelmintic drug praziquantel activates a schistosome transient receptor potential channel.

Author

Park SK, Gunaratne GS, Chulkov EG, Moehring F, McCusker P, Dosa PI, Chan JD, Stucky CL, and Marchant JS

Subjects

Animals, Electrophysiology, Female, HEK293 Cells, Humans, Mice, Schistosoma drug effects, Anthelmintics pharmacology, Praziquantel pharmacology, Schistosoma metabolism, Transient Receptor Potential Channels metabolism

Abstract

The anthelmintic drug praziquantel (PZQ) is used to treat schistosomiasis, a neglected tropical disease that affects over 200 million people worldwide. PZQ causes Ca 2+ influx and spastic paralysis of adult worms and rapid vacuolization of the worm surface. However, the mechanism of action of PZQ remains unknown even after 40 years of clinical use. Here, we demonstrate that PZQ activates a schistosome transient receptor potential (TRP) channel, christened Sm TRPM PZQ , present in parasitic schistosomes and other PZQ-sensitive parasites. Several properties of Sm TRPM PZQ were consistent with known effects of PZQ on schistosomes, including (i) nanomolar sensitivity to PZQ; (ii) stereoselectivity toward ( R )-PZQ; (iii) mediation of sustained Ca 2+ signals in response to PZQ; and (iv) a pharmacological profile that mirrors the well-known effects of PZQ on muscle contraction and tegumental disruption. We anticipate that these findings will spur development of novel therapeutic interventions to manage schistosome infections and broader interest in PZQ, which is finally unmasked as a potent flatworm TRP channel activator., (© 2019 Park et al.)

Published

2019

17. The synthesis and characterization of a clickable-photoactive NAADP analog active in human cells.

Author

Asfaha TY, Gunaratne GS, Johns ME, Marchant JS, Walseth TF, and Slama JT

Subjects

Animals, Binding Sites, Calcium Signaling, Cell Line, Tumor, Humans, NADP chemical synthesis, NADP isolation & purification, Photoaffinity Labels isolation & purification, Protein Binding, Sea Urchins, Benzoic Acid chemical synthesis, Calcium metabolism, Click Chemistry methods, NADP analogs & derivatives, Photoaffinity Labels chemical synthesis

Abstract

Nicotinic acid adenine dinucleotide phosphate (NAADP) is a potent Ca 2+ mobilizing second messenger which triggers Ca 2+ release in both sea urchin egg homogenates and in mammalian cells. The NAADP binding protein has not been identified and the regulation of NAADP mediated Ca 2+ release remains controversial. To address this issue, we have synthesized an NAADP analog in which 3-azido-5-azidomethylbenzoic acid is attached to the amino group of 5-(3-aminopropyl)-NAADP to produce an NAADP analog which is both a photoaffinity label and clickable. This 'all-in-one-clickable' NAADP (AIOC-NAADP) elicited Ca 2+ release when microinjected into cultured human SKBR3 cells at low concentrations. In contrast, it displayed little activity in sea urchin egg homogenates where very high concentrations were required to elicit Ca 2+ release. In mammalian cell homogenates, incubation with low concentrations of [ 32 P]AIOC-NAADP followed by irradiation with UV light resulted in labeling 23 kDa protein(s). Competition between [ 32 P]AIOC-NAADP and increasing concentrations of NAADP demonstrated that the labeling was selective. We show that this label recognizes and selectively photodervatizes the 23 kDa NAADP binding protein(s) in cultured human cells identified in previous studies using [ 32 P]5-N 3 -NAADP., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

18. 5-Azido-8-ethynyl-NAADP: A bifunctional, clickable photoaffinity probe for the identification of NAADP receptors.

Author

Gunaratne GS, Su P, Marchant JS, Slama JT, and Walseth TF

Subjects

Animals, Cell Line, Tumor, Humans, NADP chemistry, NADP pharmacology, Sea Urchins, Calcium Signaling, Fluorescent Dyes chemistry, Fluorescent Dyes pharmacology, NADP analogs & derivatives, Staining and Labeling, Ultraviolet Rays

Abstract

Nicotinic acid adenine dinucleotide phosphate is an evolutionarily conserved second messenger, which mobilizes Ca 2+ from acidic stores. The molecular identity of the NAADP receptor has yet to be defined. In pursuit of isolating and identifying NAADP-binding proteins, we synthesized and characterized a bifunctional probe that incorporates both a photoactivatable crosslinking azido moiety at the 5-position of the nicotinic ring and a 'clickable' ethynyl moiety to the 8-adenosyl position in NAADP. Microinjection of this 5N 3 -8-ethynyl-NAADP into cultured U2OS cells induced robust Ca 2+ responses. Higher concentrations of 5N 3 -8-ethynyl were required to elicit Ca 2+ release or displace 32 P-NAADP in radioligand binding experiments in sea urchin egg homogenates. In human cell extracts, incubation of 32 P-5N 3 -8-ethynyl-NAADP followed by UV irradiation resulted in selective labeling of 23 kDa and 35 kDa proteins and photolabeling of these proteins was prevented when incubated in the presence of unlabeled NAADP. Compared to the monofunctional 32 P-5N 3 -NAADP, the clickable 32 P-5N 3 -8-ethynyl-NAADP demonstrated less labeling of the 23 kDa and 35 kDa proteins (~3-fold) but provided an opportunity for further enrichment through the 'clickable' ethynyl moiety. No proteins were specifically labeled by 32 P-5N 3 -8-ethynyl-NAADP in sea urchin egg homogenate. These experiments demonstrate that 5N 3 -8-ethynyl-NAADP is biologically active and selectively labels putative NAADP-binding proteins in mammalian systems, evidencing a 'bifunctional' probe with utility for isolating NAADP-binding proteins., (Published by Elsevier B.V.)

Published

2019

19. TMEM33 regulates intracellular calcium homeostasis in renal tubular epithelial cells.

Author

Arhatte M, Gunaratne GS, El Boustany C, Kuo IY, Moro C, Duprat F, Plaisant M, Duval H, Li D, Picard N, Couvreux A, Duranton C, Rubera I, Pagnotta S, Lacas-Gervais S, Ehrlich BE, Marchant JS, Savage AM, van Eeden FJM, Wilkinson RN, Demolombe S, Honoré E, and Patel A

Subjects

Acute Kidney Injury genetics, Animals, Cell Membrane metabolism, Disease Models, Animal, Embryo, Nonmammalian, Endoplasmic Reticulum metabolism, Endoplasmic Reticulum Stress, Epithelial Cells cytology, Epithelial Cells metabolism, Gene Knockdown Techniques, HeLa Cells, Humans, Kidney Tubules, Proximal cytology, Lysosomes metabolism, Membrane Proteins genetics, Membrane Proteins physiology, Mice, Mice, Knockout, Mutation, Polycystic Kidney, Autosomal Dominant genetics, Polycystic Kidney, Autosomal Dominant pathology, RNA, Small Interfering metabolism, TRPP Cation Channels genetics, TRPP Cation Channels physiology, Zebrafish, Zebrafish Proteins physiology, Acute Kidney Injury pathology, Calcium metabolism, Kidney Tubules, Proximal metabolism, Membrane Proteins metabolism, TRPP Cation Channels metabolism, Zebrafish Proteins metabolism

Abstract

Mutations in the polycystins cause autosomal dominant polycystic kidney disease (ADPKD). Here we show that transmembrane protein 33 (TMEM33) interacts with the ion channel polycystin-2 (PC2) at the endoplasmic reticulum (ER) membrane, enhancing its opening over the whole physiological calcium range in ER liposomes fused to planar bilayers. Consequently, TMEM33 reduces intracellular calcium content in a PC2-dependent manner, impairs lysosomal calcium refilling, causes cathepsins translocation, inhibition of autophagic flux upon ER stress, as well as sensitization to apoptosis. Invalidation of TMEM33 in the mouse exerts a potent protection against renal ER stress. By contrast, TMEM33 does not influence pkd2-dependent renal cystogenesis in the zebrafish. Together, our results identify a key role for TMEM33 in the regulation of intracellular calcium homeostasis of renal proximal convoluted tubule cells and establish a causal link between TMEM33 and acute kidney injury.

Published

2019

20. Probing Ca 2+ release mechanisms using sea urchin egg homogenates.

Author

Yuan Y, Gunaratne GS, Marchant JS, and Patel S

Subjects

Animals, Calcium chemistry, Calcium Signaling drug effects, Cell-Free System, Cyclic ADP-Ribose chemistry, Kinetics, NADP chemistry, NADP metabolism, Ovum chemistry, Proteins chemistry, Proteins pharmacology, Sea Urchins growth & development, Calcium metabolism, Cyclic ADP-Ribose metabolism, NADP analogs & derivatives, Sea Urchins metabolism

Abstract

Sea urchin eggs have been extensively used to study Ca 2+ release through intracellular Ca 2+ -permeable channels. Their amenability to homogenization yields a robust, cell-free preparation that was central to establishing the Ca 2+ mobilizing actions of cyclic ADP-ribose and NAADP. Egg homogenates have continued to provide insight into the basic properties and pharmacology of intracellular Ca 2+ release channels. In this chapter, we describe methods for the preparation of egg homogenates and monitoring Ca 2+ release using fluorimetry and radiotracer flux., (© 2019 Elsevier Inc. All rights reserved.)

Published

2019

21. A screening campaign in sea urchin egg homogenate as a platform for discovering modulators of NAADP-dependent Ca 2+ signaling in human cells.

Author

Gunaratne GS, Johns ME, Hintz HM, Walseth TF, and Marchant JS

Subjects

Animals, Calcium metabolism, Cell Line, Drug Evaluation, Preclinical, Humans, Lysosomes drug effects, Lysosomes metabolism, NADP pharmacology, Ovum drug effects, Reproducibility of Results, Sea Urchins drug effects, Calcium Signaling drug effects, NADP analogs & derivatives, Ovum metabolism, Sea Urchins metabolism

Abstract

The Ca 2+ mobilizing second messenger nicotinic acid adenine dinucleotide phosphate (NAADP) regulates intracellular trafficking events, including translocation of certain enveloped viruses through the endolysosomal system. Targeting NAADP-evoked Ca 2+ signaling may therefore be an effective strategy for discovering novel antivirals as well as therapeutics for other disorders. To aid discovery of novel scaffolds that modulate NAADP-evoked Ca 2+ signaling in human cells, we have investigated the potential of using the sea urchin egg homogenate system for a screening campaign. Known pharmacological inhibitors of NAADP-evoked Ca 2+ release (but not cADPR- or IP 3 -evoked Ca 2+ release) in this invertebrate system strongly correlated with inhibition of MERS-pseudovirus infectivity in a human cell line. A primary screen of 1534 compounds yielded eighteen 'hits' exhibiting >80% inhibition of NAADP-evoked Ca 2+ release. A validation pipeline for these candidates yielded seven drugs that inhibited NAADP-evoked Ca 2+ release without depleting acidic Ca 2+ stores in a human cell line. These candidates displayed a similar penetrance of inhibition in both the sea urchin system and the human cell line, and the extent of inhibition of NAADP-evoked Ca 2+ signals correlated well with observed inhibition of infectivity of a Middle East Respiratory syndrome coronavirus (MERS-CoV) pseudovirus. These experiments support the potential of this simple, homogenate system for screening campaigns to discover modulators of NAADP, cADPR and IP 3 -dependent Ca 2+ signaling with potential therapeutic value., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

22. NAADP-dependent Ca 2+ signaling regulates Middle East respiratory syndrome-coronavirus pseudovirus translocation through the endolysosomal system.

Author

Gunaratne GS, Yang Y, Li F, Walseth TF, and Marchant JS

Subjects

Benzylisoquinolines pharmacology, Cell Line, Endosomes drug effects, Endosomes metabolism, Furin metabolism, Gene Knockdown Techniques, Humans, Ion Channels metabolism, Lysosomes drug effects, Lysosomes metabolism, Middle East Respiratory Syndrome Coronavirus pathogenicity, NADP pharmacology, Reproducibility of Results, Spike Glycoprotein, Coronavirus metabolism, Voltage-Gated Sodium Channels metabolism, Calcium Signaling drug effects, Endosomes virology, Lysosomes virology, Middle East Respiratory Syndrome Coronavirus metabolism, NADP analogs & derivatives

Abstract

Middle East Respiratory Syndrome coronavirus (MERS-CoV) infections are associated with a significant mortality rate, and existing drugs show poor efficacy. Identifying novel targets/pathways required for MERS infectivity is therefore important for developing novel therapeutics. As an enveloped virus, translocation through the endolysosomal system provides one pathway for cellular entry of MERS-CoV. In this context, Ca 2+ -permeable channels within the endolysosomal system regulate both the luminal environment and trafficking events, meriting investigation of their role in regulating processing and trafficking of MERS-CoV. Knockdown of endogenous two-pore channels (TPCs), targets for the Ca 2+ mobilizing second messenger NAADP, impaired infectivity in a MERS-CoV spike pseudovirus particle translocation assay. This effect was selective as knockdown of the lysosomal cation channel mucolipin-1 (TRPML1) was without effect. Pharmacological inhibition of NAADP-evoked Ca 2+ release using several bisbenzylisoquinoline alkaloids also blocked MERS pseudovirus translocation. Knockdown of TPC1 (biased endosomally) or TPC2 (biased lysosomally) decreased the activity of furin, a protease which facilitates MERS fusion with cellular membranes. Pharmacological or genetic inhibition of TPC1 activity also inhibited endosomal motility impairing pseudovirus progression through the endolysosomal system. Overall, these data support a selective, spatially autonomous role for TPCs within acidic organelles to support MERS-CoV translocation., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

23. Activation of host transient receptor potential (TRP) channels by praziquantel stereoisomers.

Author

Gunaratne GS, Yahya NA, Dosa PI, and Marchant JS

Subjects

Animals, Female, HEK293 Cells, Humans, Mesenteric Arteries drug effects, Mice, Stereoisomerism, TRPM Cation Channels metabolism, Anthelmintics pharmacology, Praziquantel pharmacology, TRPM Cation Channels drug effects, Vasodilator Agents pharmacology

Abstract

The anthelmintic praziquantel (±PZQ) serves as a highly effective antischistosomal therapy. ±PZQ causes a rapid paralysis of adult schistosome worms and deleterious effects on the worm tegument. In addition to these activities against the parasite, ±PZQ also modulates host vascular tone in blood vessels where the adult worms reside. In resting mesenteric arteries ±PZQ causes a constriction of basal tone, an effect mediated by (R)-PZQ activation of endogenous serotoninergic G protein coupled receptors (GPCRs). Here, we demonstrate a novel vasodilatory action of ±PZQ in mesenteric vessels that are precontracted by high potassium-evoked depolarization, an effect previously reported to be associated with agonists of the transient receptor potential melastatin 8 channel (TRPM8). Pharmacological profiling a panel of 17 human TRPs demonstrated ±PZQ activity against a subset of human TRP channels. Several host TRP channels (hTRPA1, hTRPC3, hTRPC7) were activated by both (R)-PZQ and (S)-PZQ over a micromolar range whereas hTRPM8 showed stereoselective activation by (S)-PZQ. The relaxant effect of ±PZQ in mesenteric arteries was caused by (S)-PZQ, and mimicked by TRPM8 agonists. However, persistence of both (S)-PZQ and TRPM8 agonist evoked vessel relaxation in TRPM8 knockout tissue suggested that canonical TRPM8 does not mediate this (S)-PZQ effect. We conclude that (S)-PZQ is vasoactive over the micromolar range in mesenteric arteries although the molecular mediators of this effect remain to be identified. These data expand our knowledge of the polypharmacology and host vascular efficacy of this clinically important anthelmintic.

Published

2018

24. The anthelmintic praziquantel is a human serotoninergic G-protein-coupled receptor ligand.

Author

Chan JD, Cupit PM, Gunaratne GS, McCorvy JD, Yang Y, Stoltz K, Webb TR, Dosa PI, Roth BL, Abagyan R, Cunningham C, and Marchant JS

Subjects

Animals, Anthelmintics pharmacology, Cell Line, Computer Simulation, Drug Partial Agonism, Female, Humans, Mice, Myography, Praziquantel pharmacology, Receptor, Serotonin, 5-HT2B drug effects, Receptor, Serotonin, 5-HT2B metabolism, Schistosomiasis mansoni drug therapy, Serotonin 5-HT2 Receptor Agonists pharmacology, Anthelmintics metabolism, Mesenteric Arteries drug effects, Mesenteric Veins drug effects, Praziquantel metabolism, Schistosoma mansoni drug effects, Serotonin 5-HT2 Receptor Agonists pharmacokinetics, Vasoconstriction drug effects

Abstract

Schistosomiasis is a debilitating tropical disease caused by infection with parasitic blood flukes. Approximately 260 million people are infected worldwide, underscoring the clinical and socioeconomic impact of this chronic infection. Schistosomiasis is treated with the drug praziquantel (PZQ), which has proved the therapeutic mainstay for over three decades of clinical use. However, the molecular target(s) of PZQ remain undefined. Here we identify a molecular target for the antischistosomal eutomer - (R)-PZQ - which functions as a partial agonist of the human serotoninergic 5HT 2B receptor. (R)-PZQ modulation of serotoninergic signaling occurs over a concentration range sufficient to regulate vascular tone of the mesenteric blood vessels where the adult parasites reside within their host. These data establish (R)-PZQ as a G-protein-coupled receptor ligand and suggest that the efficacy of this clinically important anthelmintic is supported by a broad, cross species polypharmacology with PZQ modulating signaling events in both host and parasite.

Published

2017