Your search keyword '"Forsman, Huamei"' showing total 16 results

1. Data on the NADPH-oxidase activity induced by WKYMVm and galectin-3 in bone marrow derived and exudated neutrophils isolated from four different mouse strains

Author

Björkman, Lena, Forsman, Huamei, and Önnheim, Karin

Subjects

Neutrophils, Mouse strain, Galectin-3, lcsh:R858-859.7, Formyl peptide receptor agonist, lcsh:Computer applications to medicine. Medical informatics, lcsh:Science (General), NADPH-oxidase, Data Article, lcsh:Q1-390

Abstract

Neutrophils are the key players in inflammatory reactions and the release of superoxide through the NADPH-oxidase upon neutrophil activation contributes to bacterial clearance and surrounding tissue damage. Here we describe data on the mouse neutrophil NADPH-oxidase activation induced by the mouse formyl peptide receptor (Fpr) agonist WKYMVm and galectin-3. Neutrophils isolated from bone marrow, peritoneal exudated, and in vitro TNFα primed bone marrow neutrophils from four different laboratory strains (C57BL/6, DBA/1, BALB/c and NMRI) were used. Both Fpr agonist and galectin-3 activated neutrophils to release superoxide. No differences were observed in the amounts of superoxide released from neutrophils derived from four different strains.

Published

2017

2. Functional selective FPR1 signaling in favor of an activation of the neutrophil superoxide generating NOX2 complex.

Author

Lind, Simon, Dahlgren, Claes, Holmdahl, Rikard, Olofsson, Peter, and Forsman, Huamei

Subjects

SUPEROXIDES, PEPTIDE receptors, REACTIVE oxygen species, SMALL molecules, NEUTROPHILS

Abstract

The formyl peptide receptors FPR1 and FPR2 are abundantly expressed by neutrophils, in which they regulate proinflammatory tissue recruitment of inflammatory cells, the production of reactive oxygen species (ROS), and resolution of inflammatory reactions. The unique dual functionality of the FPRs makes them attractive targets to develop FPR‐based therapeutics as novel anti‐inflammatory treatments. The small compound RE‐04‐001 has earlier been identified as an inducer of ROS in differentiated HL60 cells but the precise target and the mechanism of action of the compound was has until now not been elucidated. In this study, we reveal that RE‐04‐001 specifically targets and activates FPR1, and the concentrations needed to activate the neutrophil NADPH‐oxidase was very low (EC50 ∼1 nM). RE‐04‐001 was also found to be a neutrophil chemoattractant, but when compared to the prototype FPR1 agonist N‐formyl‐Met‐Leu‐Phe (fMLF), the concentrations required were comparably high, suggesting that signaling downstream of the RE‐04‐001‐activated‐FPR1 is functionally selective. In addition, the RE‐04‐001‐induced response was strongly biased toward the PLC‐PIP2‐Ca2+ pathway and ERK1/2 activation but away from β‐arrestin recruitment. Compared to the peptide agonist fMLF, RE‐04‐001 is more resistant to inactivation by the MPO‐H2O2‐halide system. In summary, this study describes RE‐04‐001 as a novel small molecule agonist specific for FPR1, which displays a biased signaling profile that leads to a functional selective activating of human neutrophils. RE‐04‐001 is, therefore, a useful tool, not only for further mechanistic studies of the regulatory role of FPR1 in inflammation in vitro and in vivo, but also for developing FPR1‐specific drug therapeutics. [ABSTRACT FROM AUTHOR]

Published

2021

3. Larixol is not an inhibitor of Gαi containing G proteins and lacks effect on signaling mediated by human neutrophil expressed formyl peptide receptors.

Author

Björkman, Lena, Forsman, Huamei, Bergqvist, Linda, Dahlgren, Claes, and Sundqvist, Martina

Subjects

*G proteins, *PEPTIDE receptors, *PLATELET activating factor, *G protein coupled receptors, *PLANT extracts, *NEUTROPHILS

Abstract

Neutrophils express several G protein-coupled receptors (GPCRs) connected to intracellular Gα i or Gα q containing G proteins for down-stream signaling. To dampen GPCR mediated inflammatory processes, several inhibitors targeting the receptors and/or their down-stream signals, have been developed. Potent and selective inhibitors for Gα q containing G proteins are available, but potent and specific inhibitors of Gα i containing G proteins are lacking. Recently, Larixol, a compound extracted from the root of Euphorbia formosana , was shown to abolish human neutrophil functions induced by N -formyl-methionyl-leucyl-phenylalanine (fMLF), an agonist recognized by formyl peptide receptor 1 (FPR1) which couple to Gα i containing G proteins. The inhibitory effect was suggested to be due to interference with/inhibition of signals transmitted by βγ complexes of the Gα i containing G proteins coupled to FPR1. In this study, we applied Larixol, obtained from two different commercial sources, to determine the receptor- and G protein- selectivity of this compound in human neutrophils. However, our data show that Larixol not only lacks inhibitory effect on neutrophil responses mediated through FPR1, but also on responses mediated through FPR2, a Gα i coupled GPCR closely related to FPR1. Furthermore, Larixol did not display any features as a selective inhibitor of neutrophil responses mediated through the Gα q coupled GPCRs for platelet activating factor and ATP. Hence, our results imply that the inhibitory effects described for the root extract of Euphorbia formosana are not mediated by Larixol and that the search for a selective inhibitor of G protein dependent signals generated by Gα i coupled neutrophil GPCRs must continue. [ABSTRACT FROM AUTHOR]

Published

2024

4. Neutrophil priming that turns natural FFA2R agonists into potent activators of the superoxide generating NADPH‐oxidase.

Author

Mårtensson, Jonas, Holdfeldt, André, Sundqvist, Martina, Gabl, Michael, Kenakin, Terry P., Björkman, Lena, Forsman, Huamei, and Dahlgren, Claes

Subjects

NADPH oxidase, FREE fatty acids, NEUTROPHILS, ACETANILIDE, ACETATES

Abstract

Acetate, an agonist for the free fatty acid receptor 2 (FFA2R/GPR43), triggers an increase in the cytosolic concentration of free Ca2+ in neutrophils without any assembly of the superoxide generating NADPH‐oxidase. We show that the phenylacetamide compound 58 (Cmp 58; (S)‐2‐(4‐chlorophenyl)‐3,3‐dimethyl‐N‐(5‐phenylthiazol‐2‐yl)butanamide), lacking a direct activating effect on neutrophils, acts as a positive FFA2R modulator that turns acetate into a potent activating agonist that triggers an assembly of the NADPH‐oxidase. The NADPH‐oxidase activity could be further increased in neutrophils treated with the pro‐inflammatory cytokine TNF‐α. Many neutrophil chemoattractant receptors are stored in secretory organelles but no FFA2R mobilization was induced in neutrophils treated with TNF‐α. The receptor selectivity was demonstrated through the inhibition of the neutrophil response induced by the combined action of acetate and Cmp 58 by the FFA2R antagonist CATPB. Receptor modulators that positively co‐operate with natural FFA2R agonists and prime neutrophils in their response to such agonists, may serve as good tools for further unraveling the physiological functions of FFA2R and its involvement in various diseases. In this study, we show that neutrophils primed with a presumed allosteric FFA2R modulator produce increased amounts of reactive oxygen species when activated by receptor specific agonists. Allosteric modulation of FFA2R, a novel receptor selective mechanism, primes neutrophils to produce increased amounts of reactive oxygen species. [ABSTRACT FROM AUTHOR]

Published

2018

5. Reactivation of Gαi‐coupled formyl peptide receptors is inhibited by Gαq‐selective inhibitors when induced by signals generated by the platelet‐activating factor receptor.

Author

Holdfeldt, André, Dahlstrand Rudin, Agnes, Gabl, Michael, Rajabkhani, Zahra, König, Gabriele M., Kostenis, Evi, Dahlgren, Claes, and Forsman, Huamei

Subjects

PEPTIDE receptors, G proteins, G protein coupled receptors, CROSSTALK

Abstract

Signals generated by the Gαq‐coupled PAF receptor reactivate Gαi‐coupled FPRs. Formyl peptide receptor (FPR)–desensitized neutrophils display increased production/release of superoxide (O2−) when activated by platelet‐activating factor (PAF), a priming of the response achieved through a unique receptor crosstalk mechanism. The aim of this study was to determine the effect of an inhibitor selective for small, heterotrimeric G proteins belonging to the Gαq subclass on that receptor crosstalk. We show that signals generated by FPRs and the PAF receptor (PAFR) induce activation of the neutrophil O2−, producing NADPH‐oxidase, and that response was sensitive to Gαq inhibition in cells activated by PAF, but no inhibition was obtained in cells activated by FPR agonists. Signaling in naive neutrophils is terminated fairly rapidly, and the receptors become homologously desensitized. The downstream sensitivity to Gαq inhibition in desensitized cells displaying increased production/release of O2− through the PAFR receptor crosstalk mechanism also comprised the reactivation of the FPRs, and the activation signals were redirected from the PAFR to the desensitized/reactivated FPRs. The Gαq‐dependent activation signals generated by the PAFRs activate the Gαi‐coupled FPRs, a receptor crosstalk that represents a novel pathway by which G protein‐coupled receptors can be regulated and signaling can be turned on and off. [ABSTRACT FROM AUTHOR]

Published

2017

6. Stable formyl peptide receptor agonists that activate the neutrophil NADPH-oxidase identified through screening of a compound library

Author

Forsman, Huamei, Kalderén, Christina, Nordin, Anna, Nordling, Erik, Jensen, Annika Jernmalm, and Dahlgren, Claes

Subjects

*NAD (Coenzyme), *NEUTROPHILS, *G proteins, *ANTI-inflammatory agents, *DRUG development, *INFLAMMATION, *RHEUMATOID arthritis, *CELLULAR signal transduction

Abstract

Abstract: The neutrophil formyl peptide receptors (FPR1 and FPR2) are G-protein coupled receptors that can induce pro-inflammatory as well as anti-inflammatory activities when activated. Accordingly, these receptors may become therapeutic targets for the development of novel drugs to be used for reducing the inflammation induced injuries in asthma, rheumatoid arthritis, Alzheimer''s disease, cardiovascular diseases and traumatic shock. We screened a library of more then 50K small compounds for an ability of the compounds to induce a transient rise in intracellular Ca2+ in cells transfected to express FPR2 (earlier called FPRL1 or the lipoxin A4 receptor). Ten agonist hits were selected for further analysis representing different chemical series and five new together with five earlier described molecules were further profiled. Compounds 1–10 gave rise to a calcium response in the FPR2 transfectants with EC50 values ranging from 4×10−9 M to 2×10−7 M. All 10 compounds activated human neutrophils to release superoxide, and based on the potency of their activity, the three most potent activators of the neutrophil NADPH-oxidase were further characterized. These three agonists were largely resistant to inactivation by neutrophil produced reactive oxygen species and shown to trigger the same functional repertoire in neutrophils as earlier described peptide agonists. Accordingly they induced chemotaxis, granule mobilization and secretion of superoxide. Interestingly, the oxidase activity was largely inhibited by cyclosporine H, an FPR1 selective antagonist, but not by PBP10, an FPR2 selective inhibitor, suggesting that FPR1 is the preferred receptor in neutrophils for all three agonists. [Copyright &y& Elsevier]

Published

2011

7. Tumour necrosis factor (TNF)-α primes murine neutrophils when triggered via formyl peptide receptor-related sequence 2, the murine orthologue of human formyl peptide receptor-like 1, through a process involving the type I TNF receptor and subcellular granule mobilization

Author

Önnheim, Karin, Bylund, Johan, Boulay, Francois, Dahlgren, Claes, and Forsman, Huamei

Subjects

TUMOR necrosis factors, NEUTROPHILS, REACTIVE oxygen species, MICROBIAL invasiveness, CELLULAR immunity

Abstract

Neutrophil granulocytes play an important role in innate host defence against microbial invasions and they are also the key effector cells in mediating host tissue damage. These functions often rely on the production of reactive oxygen species (ROS) from the membrane-bound NADPH-oxidase system. The magnitude of ROS production varies depending on the state of the cells, i.e. resting or primed. Many priming agents as well as potent NADPH-oxidase activators have been identified and characterized for human neutrophils. The cytokine tumour necrosis factor (TNF)-α is one prominent example of a priming agent and the synthetic hexapeptide WKYMVm is an agonist that triggers an activation of the NADPH-oxidase of human neutrophils through two members of the formyl peptide family of receptors, formyl peptide receptor (FPR) and FPR-like 1 (FPRL1). This peptide also activates murine neutrophils but the precise receptor involved has not been previously characterized. We show in this study that WKYMVm activates stably transfected HL60 cells expressing murine formyl peptide receptor-related sequence 2 (Fpr-rs2) and that activation of murine neutrophils with WKYMVm is blocked by an FPRL1-specific antagonist. WKYMVm is thus an agonist for Fpr-rs2 and we suggest that this receptor is in fact the mouse orthologue of FPRL1. In addition, we show that the WKYMVm response in murine neutrophils can be primed by TNF-α and this priming process involves mobilization of subcellular granules. The results obtained using neutrophils derived from TNF receptor type I (TNFRI)-deficient animals suggest that TNF-α exerts its priming effect via the TNFRI. [ABSTRACT FROM AUTHOR]

Published

2008

8. Allosteric receptor modulation uncovers an FFA2R antagonist as a positive orthosteric modulator/agonist in disguise.

Author

Lind, Simon, Hoffmann, Dagny Olofsson, Forsman, Huamei, and Dahlgren, Claes

Subjects

*ALLOSTERIC regulation, *CALCIUM ions, *FREE fatty acids, *G protein coupled receptors, *NEUTROPHILS, *NICOTINAMIDE adenine dinucleotide phosphate

Abstract

A novel receptor crosstalk activation mechanism, through which signals generated by the agonist-occupied P2Y 2 R (the neutrophil receptor for ATP) activate allosterically modulated free fatty acid 2 receptor (FFA2R) without the involvement of any FFA2R agonist, was used to determine the inhibitor profiles of two earlier-described, FFA2R-specific antagonists, CATPB and GLPG0974. These antagonists have been shown to have somewhat different receptor-interaction characteristics at the molecular/functional level, although both are recognized by the orthosteric site in FFA2R. The antagonists inhibited neutrophil activation induced by ATP, an activation occurred only in the presence of either of the two positive allosteric FFA2R modulators (PAMs) AZ1729 and Cmp58. No neutrophil activation was induced by either AZ1729 or Cmp58 alone, whereas together they acted as co-agonistic PAMs and activated the superoxide-generating NADPH-oxidase in neutrophils. This response was inhibited by CATPB but not by GLPG0974. In contrast, GLPG0974 acted as a positive modulator, increasing the potency, albeit not the efficacy, of the co-agonistic PAMs. GLPG0974 also altered signaling downstream of FFA2R when activated by the co-agonistic PAMs. In the presence of GLPG0974, the response of neutrophils induced by the co-agonistic PAMs included an increase in the cytosolic concentration of free calcium ions (Ca2+), and this effect was reciprocal in that GLPG0974 triggered an increase in intracellular Ca2+, demonstrating that GLPG0974 acted as an FFA2R agonist. In summary, by studying the effects of the FFA2R ligand GLPG0974 on neutrophil activation induced by the co-agonists AZ1729 + Cmp58, we show that GLPG0974 is not only an FFA2R antagonist, but also displays agonistic and positive FFA2R-modulating functions that affect NADPH-oxidase activity and alter the receptor-downstream signaling induced by the co-agonistic PAMs. [Display omitted] • Receptor-cross-talk activation revealed that FFA2R specific antagonists inhibit the effects of two allosteric modulators. • Together the allosteric modulators activated the NADPH-oxidase without involvement of the intracellular Ca2+ signaling rout. • The NADPH-oxidase activity induced by Cmp58/AZ1729 was positive modulated by the presumed antagonistic GLPG0974. • With the allosteric modulators GLPG0974 behaves as a positive modulator and and as a functional selective FFA2R agonist [ABSTRACT FROM AUTHOR]

Published

2022

9. Functional and signaling characterization of the neutrophil FPR2 selective agonist Act-389949.

Author

Lind, Simon, Sundqvist, Martina, Holmdahl, Rikard, Dahlgren, Claes, Forsman, Huamei, and Olofsson, Peter

Subjects

*ANIMAL disease models, *PEPTIDE receptors, *NEUTROPHILS, *CLINICAL trials

Abstract

Despite the steadily increased numbers of formyl peptide receptor (FPR) ligands identified over the years, few have been characterized in studies using animal disease models and even less have entered clinical trials in human subjects. A small-molecule compound, Act-389949, was however recently tested in a phase I clinical trial and found to be safe and well tolerated in healthy human subjects. The desired anti-inflammatory property of Act-389949 was proposed to be mediated through FPR2, one of the FPRs expressed in neutrophils, but no basic characterization was included in the study. To gain more insights into FPR2 recognition of this first-in-class compound for future utility of the agonist, we have in this study determined the receptor preference and down-stream signaling characteristics induced by Act-389949 in human blood neutrophils isolated from healthy donors. Our data demonstrate that Act-389949 is an agonist for FPR2 that triggers functional/signaling repertoires comparable to what has been earlier described for other FPR2 agonists, including neutrophil chemotaxis, granule mobilization and activation of the NADPH-oxidase. In fact, Act-389949 was found to be as potent as the prototype FPR2 peptide agonist WKYMVM and had the advantage of being resistant to oxidation by MPO-H 2 O 2 -halide derived oxidants, as compared to the sensitive WKYMVM. The down-stream signals generated by Act-389949 include an FPR2-dependent and Gαq-independent transient rise in intracellular Ca2+ and recruitment of β-arrestin. In summary, our data show that Act-389949 serves as an excellent tool-compound for further dissection of FPR2-regulated activities in vitro and in vivo. Potent and stable FPR ligands such as Act-389949 may therefore be used to develop the next generation of FPR signaling regulating anti-inflammatory therapeutics. [ABSTRACT FROM AUTHOR]

Published

2019

10. Similarities and differences between the responses induced in human phagocytes through activation of the medium chain fatty acid receptor GPR84 and the short chain fatty acid receptor FFA2R.

Author

Sundqvist, Martina, Christenson, Karin, Holdfeldt, André, Gabl, Michael, Mårtensson, Jonas, Björkman, Lena, Dieckmann, Regis, Dahlgren, Claes, and Forsman, Huamei

Subjects

*PHAGOCYTES, *FATTY acids, *G protein coupled receptors, *LIGANDS (Biochemistry), *SMALL molecules

Abstract

GPR84 is a recently de-orphanized member of the G-protein coupled receptor (GPCR) family recognizing medium chain fatty acids, and has been suggested to play important roles in inflammation. Due to the lack of potent and selective GPR84 ligands, the basic knowledge related to GPR84 functions is very limited. In this study, we have characterized the GPR84 activation profile and regulation mechanism in human phagocytes, using two recently developed small molecules that specifically target GPR84 agonistically (ZQ16) and antagonistically (GLPG1205), respectively. Compared to our earlier characterization of the short chain fatty acid receptor FFA2R which is functionally expressed in neutrophils but not in monocytes, GPR84 is expressed in both cell types and in monocyte-derived macrophages. In neutrophils, the GPR84 agonist had an activation profile very similar to that of FFA2R. The GPR84-mediated superoxide release was low in naïve cells, but the response could be significantly primed by TNFα and by the actin cytoskeleton disrupting agent Latrunculin A. Similar to that of FFA2R, a desensitization mechanism bypassing the actin cytoskeleton was utilized by GPR84. All ZQ16-mediated cellular responses were sensitive to GLPG1205, confirming the GPR84-dependency. Finally, our data of in vivo transmigrated tissue neutrophils indicate that both GPR84 and FFA2R are involved in neutrophil recruitment processes in vivo . In summary, we show functional similarities but also some important differences between GPR84 and FFA2R in human phagocytes, thus providing some mechanistic insights into GPR84 regulation in blood neutrophils and cells recruited to an aseptic inflammatory site in vivo . [ABSTRACT FROM AUTHOR]

Published

2018

11. An increase in the cytosolic concentration of free calcium ions activates the neutrophil NADPH-oxidase provided that the free fatty acid receptor 2 has been allosterically modulated.

Author

Lind, Simon, Wu, Yanling, Sundqvist, Martina, Forsman, Huamei, and Dahlgren, Claes

Subjects

*G protein coupled receptors, *FREE fatty acids, *CALCIUM ions, *PURINERGIC receptors, *NEUTROPHILS, *CELL membranes, *G proteins

Abstract

Signals generated by free fatty acid receptor 2 (FFA2R) can activate the neutrophil NADPH-oxidase without involvement of any orthosteric FFA2R agonist. The initiating signals may be generated by P2Y 2 R, the receptor for ATP. An FFA2R specific allosteric modulator (PAM; Cmp58) was required for this response and used to investigate the mechanism by which signals generated by ATP/P2Y 2 R activate an FFA2R dependent process. The P2Y 2 R induced signal that together with the modulated FFA2R activates neutrophils, was generated downstream of the Gα q containing G protein coupled to P2Y 2 R. A rise in the cytosolic concentration of ionized calcium ([Ca2+] i) was hypothesized to be the important signal. The hypothesis gained support from the finding that the modulator transferred the neutrophils to a Ca2+sensitive state. The rise in [Ca2+] i induced by the Ca2+ specific ionophore ionomycin, activated the neutrophils provided that an allosteric modulator was bound to FFA2R. The activity of the superoxide generating NADPH-oxidase induced by ionomycin was rapidly terminated and the FFA2Rs could then no longer be activated by the FFA2R agonist propionate or by the signal generated by ATP/P2Y 2 R. The non-responding state of FFA2R was, however, revoked by a cross-activating allosteric FFA2R modulator. The [Ca2+] i mediated activation of neutrophils with their FFA2Rs allosterically modulated, represent a unique regulatory receptor crosstalk mechanism by which the activation potency of a G protein coupled receptor is controlled by a receptor-crosstalk signaling system operating from the cytosolic side of the plasma membrane. • The positive allosteric modulator Cmp58 was used to disclose the mechanism by which FFA2R is transactivated by other receptors • A receptor induced rise in the concentration of calcium ionswas hypothesized to be the signal that transactivates FFA2R • In agreement with the hypothesis, a calcium specific ionophore activated the allosterically modulated FFA2R • The rapidly terminated ionomycin activation desensitized FFA2R - propionate and ATP were no longer activating agonists • The receptor transactivation mechanism activates FFA2R from the cytosolic side of the plasma membrane [ABSTRACT FROM AUTHOR]

Published

2023

12. The peptidomimetic Lau-(Lys-βNSpe)6-NH2 antagonizes formyl peptide receptor 2 expressed in mouse neutrophils.

Author

Skovbakke, Sarah Line, Winther, Malene, Gabl, Michael, Holdfeldt, André, Linden, Sara, Wang, Ji Ming, Dahlgren, Claes, Franzyk, Henrik, and Forsman, Huamei

Subjects

*PEPTIDOMIMETICS, *FORMYL peptide receptors, *GENE expression in mammals, *NEUTROPHILS, *LABORATORY mice

Abstract

The formyl peptide receptor (FPR) gene family has a complex evolutionary history and comprises eight murine members but only three human representatives. To enable translation of results obtained in mouse models of human diseases, more comprehensive knowledge of the pharmacological similarities/differences between the human and murine FPR family members is required. Compared to FPR1 and FPR2 expressed by human neutrophils, very little is known about agonist/antagonist recognition patterns for their murine orthologues, but now we have identified two potent and selective formylated peptide agonists (fMIFL and PSMα2) for Fpr1 and Fpr2, respectively. These peptides were used to determine the inhibition profile of a set of antagonists with known specificities for the two FPRs in relation to the corresponding murine receptors. Some of the most potent and selective antagonists for the human receptors proved to be devoid of effect on their murine orthologues as determined by their inability to inhibit superoxide release from murine neutrophils upon stimulation with receptor-specific agonists. The Boc-FLFLF peptide was found to be a selective antagonist for Fpr1, whereas the lipidated peptidomimetic Lau-(Lys-βNSpe) 6 -NH 2 and the hexapeptide WRW 4 were identified as Fpr2-selective antagonists. [ABSTRACT FROM AUTHOR]

Published

2016

13. A non-peptide receptor inhibitor with selectivity for one of the neutrophil formyl peptide receptors, FPR 1

Author

Çevik-Aras, Hülya, Kalderén, Christina, Jenmalm Jensen, Annika, Oprea, Tudor, Dahlgren, Claes, and Forsman, Huamei

Subjects

*PEPTIDE receptors, *NEUTROPHILS, *G protein coupled receptors, *INFLAMMATION, *TARGETED drug delivery, *BENZAMIDE

Abstract

Abstract: The neutrophil formyl peptide receptors (FPR1 and FPR2) are members of the G-protein coupled receptor family. The signals generated by occupied FPRs are both pro-inflammatory and anti-inflammatory. Accordingly, these receptors have become a therapeutic target for the development of novel drugs that may be used to reduce injuries in inflammatory diseases including asthma, rheumatoid arthritis, Alzheimer''s disease and cardiovascular diseases. To support the basis for a future pharmacological characterization, we have identified a small molecular non-peptide inhibitor with selectivity for FPR1. We used the FPR1 and FPR2 specific ligands fMLF and WKYMVM, respectively, and an earlier described ratio technique, to determine inhibitory activity combined with selectivity. We show that the compound 3,5-dichloro-N-(2-chloro-5-methyl-phenyl)-2-hydroxy-benzamide (BVT173187) fulfills the criteria for an FPR1 inhibitor selective for FPR1 over FPR2, and it inhibits the same functional repertoire in neutrophils as earlier described peptide antagonists. Accordingly, the new inhibitor reduced neutrophil activation with FPR1 agonists, leading to mobilization of adhesion molecules (CR3) and the generation of superoxide anion from the neutrophil NADPH-oxidase. The effects of a number of structural analogs were determined but these were either without activity or less active/specific than BVT173187. The potency of the new inhibitor for reduction of FPR1 activity was the same as that of the earlier described FPR1 antagonist cyclosporine H, but signaling through the C5aR and CXCR (recognizing IL8) was also affected by BVT173187. [Copyright &y& Elsevier]

Published

2012

14. Multiple ligand recognition sites in free fatty acid receptor 2 (FFA2R) direct distinct neutrophil activation patterns.

Author

Lind, Simon, Holdfeldt, André, Mårtensson, Jonas, Granberg, Kenneth L., Forsman, Huamei, and Dahlgren, Claes

Subjects

*NEUTROPHILS, *CALCIUM ions, *INTRACELLULAR calcium, *FREE fatty acids, *BINDING sites, *NADPH oxidase, *NICOTINAMIDE adenine dinucleotide phosphate

Abstract

[Display omitted] The allosteric modulating free fatty acid receptor 2 ligands Cmp58 and AZ1729, increased the activity induced by orthosteric receptor agonists mediating a rise in intracellular calcium ions and activation of the neutrophil NADPH-oxidase. Together, the two modulators triggered an orthosteric-agonist-independent activation of the oxidase without any rise in the concentration of intracellular calcium ions. In this study, structurally diverse compounds presumed to be ligands for free fatty acid receptor 2 were used to gain additional insights into receptor-modulation/signaling. We identified two molecules that activate neutrophils on their own and we classified one as allosteric agonist and the other as orthosteric agonist. Ten compounds were classified as allosteric FFA2R modulators. Of these, one activated neutrophils when combined with AZ1729; the nine remaining compounds activated neutrophils solely when combined with Cmp58. The activation signals were primarily biased when stimulated by two allosteric modulators interacting with different binding sites, such that two complementary modulators together triggered an activation of the NADPH-oxidase but no increase in the intracellular concentration of calcium ions. No neutrophil activation was induced when allosteric receptor modulators suggested to be recognized by the same binding site were combined, results in agreement with our proposed model for activation, in which the receptor has two different sites that selectively bind allosteric modulators. The down-stream signaling mediated by cross-sensitizing allosteric receptor modulators, occurring independent of any orthosteric agonist, represent a new mechanism for activation of the neutrophil NADPH oxidase. [ABSTRACT FROM AUTHOR]

Published

2021

15. The PAR4-derived pepducin P4Pal10 lacks effect on neutrophil GPCRs that couple to Gαq for signaling but distinctly modulates function of the Gαi-coupled FPR2 and FFAR2.

Author

Holdfeldt, André, Lind, Simon, Hesse, Camilla, Dahlgren, Claes, and Forsman, Huamei

Subjects

*PROTEASE-activated receptors, *NEUTROPHILS, *PATTERN perception receptors, *FREE fatty acids, *INFLAMMATORY mediators, *G protein coupled receptors, *THROMBIN receptors

Abstract

A novel mechanism of action was described for the protease-activated receptor 4 (PAR4)-derived pepducin (P4Pal 10), when it was shown to exhibit inhibitory efficacy towards G protein coupling to multiple Gαq-coupled receptors (Carr, R., 3rd et al., Mol. Pharmacol. 2016(89) 94). We could confirm that P4Pal 10 , similar to an earlier-characterized Gαq inhibitor (YM-254890), inhibited platelet aggregation induced by agonists for the Gαq-coupled receptors PAR1 and PAR4. Next, we applied P4Pal 10 as a tool compound and investigated its modulatory effect on several Gαq- and Gαi-coupled GPCRs expressed by human neutrophils. P4Pal 10 had, however, no inhibitory effects on signaling downstream of the Gαq-coupled receptors for ATP (P2Y 2 R) and PAF (PAFR). Instead, P4Pal 10 inhibited signaling downstream the Gαi-coupled FPR2. The inhibition was not due to a direct effect on Gαi as the closely related FPR1 was unaffected. In addition, we found that the pepducin activated allosterically modulated short chain fatty acid receptor (FFAR2), a Gαi/Gαq coupled GPCR that is functionally expressed in neutrophils. Taken together, we show that pepducins are unique tool-compounds for mechanistic studies of GPCR signaling and modulation in neutrophils. The data presented add also lipopeptides into the known ligand recognition lists for the two pattern recognition receptors FPR2 and FFAR2, receptors that primarily sense formylated peptides and short free fatty acids, respectively, inflammatory mediators of microbial origin. [ABSTRACT FROM AUTHOR]

Published

2020

16. Interdependent allosteric free fatty acid receptor 2 modulators synergistically induce functional selective activation and desensitization in neutrophils.

Author

Lind, Simon, Holdfeldt, André, Mårtensson, Jonas, Sundqvist, Martina, Kenakin, Terry P., Björkman, Lena, Forsman, Huamei, and Dahlgren, Claes

Subjects

*FREE fatty acids, *RALOXIFENE, *CALCIUM ions, *ALLOSTERIC regulation, *G protein coupled receptors

Abstract

The non-activating allosteric modulator AZ1729, specific for free fatty acid receptor 2 (FFAR2), transfers the orthosteric FFAR2 agonists propionate and the P2Y 2 R specific agonist ATP into activating ligands that trigger an assembly of the neutrophil superoxide generating NADPH-oxidase. The homologous priming effect on the propionate response and the heterologous receptor cross-talk sensitized ATP response mediated by AZ1729 are functional characteristics shared with Cmp58, another non-activating allosteric FFAR2 modulator. In addition, AZ1729 also turned Cmp58 into a potent activator of the superoxide generating neutrophil NADPH-oxidase, and in agreement with the allosteric modulation concept, the effect was reciprocal in that Cmp58 turned AZ1729 into a potent activating allosteric agonist. The activation signals down-stream of FFAR2 when stimulated by the two interdependent allosteric modulators were biased in that, unlike for orthosteric agonists, the two complementary modulators together triggered an activation of the NADPH-oxidase, but not any transient rise in the cytosolic concentration of free calcium ions (Ca2+). Furthermore, following AZ1729/Cmp58 activation, the signaling by the desensitized FFAR2s was functionally selective in that the orthosteric agonist propionate could still induce a transient rise in intracellular Ca2+. The novel neutrophil activation and receptor down-stream signaling pattern mediated by the two cross-sensitizing allosteric FFAR2 modulators represent a new regulatory mechanism that controls receptor signaling. • The agonist occupied ATP receptor P2Y 2 R activates allosterically modulated FFAR2s. • Activation of FFAR2s by allosteric modulators without any orthosteric agonist • Biased receptor signaling induced by two interdependent allosteric modulators. • New regulatory mechanisms for control of GPCR-signaling [ABSTRACT FROM AUTHOR]

Published

2020