Your search keyword '"Forsman, Huamei"' showing total 12 results

1. 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

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. RE‐04‐001 is a novel small molecule agonist specific for FPR1, which displays a biased signaling profile that leads to a functional selective activating of human neutrophils

Published

2021

2. The Two Formyl Peptide Receptors Differently Regulate GPR84-Mediated Neutrophil NADPH Oxidase Activity

Author

Mårtensson, Jonas, Sundqvist, Martina, Manandhar, Asmita, Leremias, Loukas, Zhang, Linjie, Ulven, Trond, Xie, Xin, Björkman, Lena, and Forsman, Huamei

Abstract

Neutrophils express the two formyl peptide receptors (FPR1 and FPR2) and the medium-chain fatty acid receptor GPR84. The FPRs are known to define a hierarchy among neutrophil G protein-coupled receptors (GPCRs), that is, the activated FPRs can either suppress or amplify GPCR responses. In this study, we investigated the position of GPR84 in the FPR-defined hierarchy regarding the activation of neutrophil nicotine adenine dinucleotide phosphate (NADPH) oxidase, an enzyme system designed to generate reactive oxygen species (ROS), which are important regulators in cell signaling and immune regulation. When resting neutrophils were activated by GPR84 agonists, a modest ROS release was induced. However, vast amounts of ROS were induced by these GPR84 agonists in FPR2-desensitized neutrophils, and the response was inhibited not only by a GPR84-specific antagonist but also by an FPR2-specific antagonist. This suggests that the amplified GPR84 agonist response is achieved through a reactivation of desensitized FPR2s. In addition, the GPR84-mediated FPR2 reactivation was independent of β-arrestin recruitment and sensitive to a protein phosphatase inhibitor. In contrast to FPR2-desensitized cells, FPR1 desensitization primarily resulted in a suppressed GPR84 agonist-induced ROS response, indicating a receptor hierarchical desensitization of GPR84 by FPR1-generated signals. In summary, our data show that the two FPRs in human neutrophils control the NADPH oxidase activity with concomitant ROS production by communicating with GPR84 through different mechanisms. While FPR1 desensitizes GPR84 and by that suppresses the release of ROS induced by GPR84 agonists, amplified ROS release is achieved by GPR84 agonists through reactivation of the desensitized FPR2.

Published

2021

3. Neutrophil recruitment to inflamed joints can occur without cellular priming

Author

Björkman, Lena, Christenson, Karin, Davidsson, Lisa, Mårtensson, Jonas, Amirbeagi, Firoozeh, Welin, Amanda, Forsman, Huamei, Karlsson, Anna, Dahlgren, Claes, and Bylund, Johan

Abstract

Recruitment of neutrophils from blood to tissues is a cardinal event in inflammation during which neutrophils switch from a resting, naive state to a preactivated, primed phenotype; the priming process is characterized by alterations in the composition of cell surface adhesins, for example, shedding of l‐selectin and mobilization of granule‐stored integrins to the cell surface. Ligation of chemotactic receptors and interactions with the endothelial lining are established triggers of neutrophil priming and in line with this, in vivo transmigrated neutrophils obtained from tissues are typically highly primed. We here characterize the priming of neutrophils brought about by in vivo recruitment from blood to inflamed joints by the analyses of synovial fluid and blood from patients with inflammatory arthritis. For comparisons, we used controlled in vivo models of neutrophil transmigration to skin of healthy subjects. In contrast to the residing view and in vivo transmigrated neutrophils from skin models, neutrophils from synovial fluid were often surprisingly resting and phenotypically very similar to naive cells isolated from peripheral blood; synovial fluid cells often retained l‐selectin and had undergone minimal up‐regulation of integrin receptors. In complete agreement with our in vivo findings, cell‐free synovial fluid was potently chemotactic without triggering alteration of surface receptors also in vitro. We conclude that tissue recruitment of neutrophils does not by default trigger l‐selectin shedding and granule mobilization, and the chemoattractant(s) guiding neutrophils to synovial fluid apparently operate without inducing cellular priming. Tissue recruitment of neutrophils does not necessarily trigger priming, e.g., l‐selectin shedding and granule mobilization.

Published

2019

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

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.

Published

2018

5. The Role of Formyl Peptide Receptors for Immunomodulatory Activities of Antimicrobial Peptides and Peptidomimetics

Author

Skovbakke, Sarah L., Holdfeldt, Andre, Forsman, Huamei, Bylund, Johan, and Franzyk, Henrik

Abstract

In recent years, the therapeutic potential of antimicrobial peptides (AMPs) as immunomodulators has become generally accepted. Nevertheless, only very few AMP-based compounds have progressed into clinical trials. This paradox may be explained by the fact, that some of the intrinsic properties of natural peptides, such as proteolytic and oxidative instability, render them inconvenient as therapeutics. Therefore, substantial research efforts have been dedicated to mimic the physico-chemical properties as well as biological activities of AMPs by designing and identifying more stable peptidomimetics displaying analogous immunomodulatory activity profiles. Neutrophils play key roles in host defense as major effector cells in clearance of pathogens by phagocytosis and by regulating other processes of innate immunity as well as by promoting resolution of inflammation. Several aspects of these effects are correlated to their expression of formyl peptide receptors (FPRs) that have been shown to be targets of both natural and synthetic antimicrobial peptides. In the present review recent findings highlighting the role of FPRs in mediating immunomodulatory activities of natural and synthetic AMPs as well as of stabilized peptidomimetics are discussed, and prospects for future development of immunomodulatory therapeutics are presented.

Published

2018

6. Reactivation of Gai-coupled formyl peptide receptors is inhibited by Gaq-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

Abstract

Signals generated by the Gaq-coupled PAF receptor reactivate Gai-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 Gaq 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 Gaq 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 Gaq 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 Gaq-dependent activation signals generated by the PAFRs activate the Gai-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.

Published

2017

7. Human CD38 regulates B cell antigen receptor dynamic organization in normal and malignant B cells

Author

Camponeschi, Alessandro, Kläsener, Kathrin, Sundell, Timothy, Lundqvist, Christina, Manna, Paul T., Ayoubzadeh, Negar, Sundqvist, Martina, Thorarinsdottir, Katrin, Gatto, Mariele, Visentini, Marcella, Önnheim, Karin, Aranburu, Alaitz, Forsman, Huamei, Ekwall, Olov, Fogelstrand, Linda, Gjertsson, Inger, Reth, Michael, and Mårtensson, Inga-Lill

Abstract

CD38 is a multifunctional protein expressed on the surface of B cells in healthy individuals but also in B cell malignancies. Previous studies have suggested a connection between CD38 and components of the IgM class B cell antigen receptor (IgM-BCR) and its coreceptor complex. Here, we provide evidence that CD38 is closely associated with CD19 in resting B cells and with the IgM-BCR upon engagement. We show that targeting CD38 with an antibody, or removing this molecule with CRISPR/Cas9, inhibits the association of CD19 with the IgM-BCR, impairing BCR signaling in normal and malignant B cells. Together, our data suggest that CD38 is a new member of the BCR coreceptor complex, where it exerts a modulatory effect on B cell activation upon antigen recognition by regulating CD19. Our study also reveals a new mechanism where α-CD38 antibodies could be a valuable option in therapeutic approaches to B cell malignancies driven by aberrant BCR signaling.

Published

2022

8. CFP-10 from Mycobacterium tuberculosisSelectively Activates Human Neutrophils through a Pertussis Toxin-Sensitive Chemotactic Receptor

Author

Welin, Amanda, Björnsdottir, Halla, Winther, Malene, Christenson, Karin, Oprea, Tudor, Karlsson, Anna, Forsman, Huamei, Dahlgren, Claes, and Bylund, Johan

Abstract

ABSTRACTUpon infection with Mycobacterium tuberculosis, neutrophils are massively recruited to the lungs, but the role of these cells in combating the infection is poorly understood. Through a type VII secretion system, M. tuberculosisreleases a heterodimeric protein complex, containing a 6-kDa early secreted antigenic target (ESAT-6) and a 10-kDa culture filtrate protein (CFP-10), that is essential for virulence. Whereas the ESAT-6 component possesses multiple virulence-related activities, no direct biological activity of CFP-10 has been shown, and CFP-10 has been described as a chaperone protein for ESAT-6. We here show that the ESAT-6:CFP-10 complex induces a transient release of Ca2+from intracellular stores in human neutrophils. Surprisingly, CFP-10 rather than ESAT-6 was responsible for triggering the Ca2+response, in a pertussis toxin-sensitive manner, suggesting the involvement of a G-protein-coupled receptor. In line with this, the response was accompanied by neutrophil chemotaxis and activation of the superoxide-producing NADPH-oxidase. Neutrophils were unique among leukocytes in responding to CFP-10, as monocytes and lymphocytes failed to produce a Ca2+signal upon stimulation with the M. tuberculosisprotein. Hence, CFP-10 may contribute specifically to neutrophil recruitment and activation during M. tuberculosisinfection, representing a novel biological role for CFP-10 in the ESAT-6:CFP-10 complex, beyond the previously described chaperone function.

Published

2014

9. The role of total and cartilage-specific estrogen receptor alpha expression for the ameliorating effect of estrogen treatment on arthritis

Author

Engdahl, Cecilia, Börjesson, Anna, Forsman, Huamei, Andersson, Annica, Stubelius, Alexandra, Krust, Andree, Chambon, Pierre, Islander, Ulrika, Ohlsson, Claes, Carlsten, Hans, and Lagerquist, Marie

Abstract

Estrogen (E2) delays onset and decreases severity of experimental arthritis. The aim of this study was to investigate the importance of total estrogen receptor alpha (ERα) expression and cartilage-specific ERα expression in genetically modified mice for the ameliorating effect of estrogen treatment in experimental arthritis. Mice with total (total ERα-/-) or cartilage-specific (Col2α1-ERα-/-) inactivation of ERα and wild-type (WT) littermates were ovariectomized, treated with E2 or placebo, and induced with antigen-induced arthritis (AIA). At termination, knees were collected for histology, synovial and splenic cells were investigated by using flow cytometry, and splenic cells were subjected to a T-cell proliferation assay. E2 decreased synovitis and joint destruction in WT mice. Amelioration of arthritis was associated with decreased frequencies of inflammatory cells in synovial tissue and decreased splenic T-cell proliferation. E2 did not affect synovitis or joint destruction in total ERα-/-mice. In Col2α1-ERα-/-mice, E2 protected against joint destruction to a similar extent as in WT mice. In contrast, E2 did not significantly ameliorate synovitis in Col2α1-ERα-/-mice. Treatment with E2 ameliorates both synovitis and joint destruction in ovariectomized mice with AIA via ERα. This decreased severity in arthritis is associated with decreased synovial inflammatory cell frequencies and reduced splenic T-cell proliferation. ERα expression in cartilage is not required for estrogenic amelioration of joint destruction. However, our data indicate that ERα expression in cartilage is involved in estrogenic effects on synovitis, suggesting different mechanisms for the amelioration of joint destruction and synovitis by E2.

Published

2014

10. Antibacterial Activity of Pepducins, Allosterical Modulators of Formyl Peptide Receptor Signaling

Author

Winther, Malene, Gabl, Michael, Oprea, Tudor I., Jönsson, Bodil, Boulay, Francois, Bylund, Johan, Dahlgren, Claes, and Forsman, Huamei

Abstract

ABSTRACTPepducins containing a fatty acid linked to an amino acid sequence derived from cytosolic parts of a G-protein-coupled receptor (GPCR) constitute a new group of lipopeptide tools in GPCR studies. Pepducins corresponding to the third intracellular loop of formyl peptide receptor 2 (FPR2) activate human neutrophils, and we show here that, in addition, these allosteric modulators of receptor activity also kill bacteria. The functional dualism of FPR2 pepducins could potentially be explored as a novel class of antibacterial drugs with immunomodulatory properties.

Published

2014

11. Receptor-Dependent and -Independent Immunomodulatory Effects of Phenol-Soluble Modulin Peptides from Staphylococcus aureuson Human Neutrophils Are Abrogated through Peptide Inactivation by Reactive Oxygen Species

Author

Forsman, Huamei, Christenson, Karin, Bylund, Johan, and Dahlgren, Claes

Abstract

ABSTRACTThe virulence and pathogenesis mechanisms of community-associated methicillin-resistant Staphylococcus aureus(CA-MRSA) strains depend on a newly described group of phenol-soluble modulin (PSM) peptides (the PSMa peptides) with cytolytic activity. These toxins are a-helical peptides with a formyl group at the N terminus, and they activate neutrophils through formyl peptide receptor 2 (FPR2), a function closely correlated to the capacity of staphylococcal species to cause invasive infections. The effects of two synthetic PSMa peptides were investigated, and we show that they utilize FPR2 and promote neutrophils to produce reactive oxygen species (ROS) which in turn trigger inactivation of the peptides. Independently of FPR2, the PSMa peptides also downregulate the neutrophil response to other stimuli and exert a cytolytic effect to which apoptotic neutrophils are more sensitive than viable cells. The novel immunomodulatory functions of the PSMa peptides were sensitive to ROS generated by the neutrophil myeloperoxidase (MPO)-H2O2system, suggesting a role for this enzyme system in counteracting bacterial virulence.

Published

2012

12. The Host Defense Peptide LL-37 Selectively Permeabilizes Apoptotic Leukocytes

Author

Björstad, Åse, Askarieh, Galia, Brown, Kelly L., Christenson, Karin, Forsman, Huamei, Önnheim, Karin, Li, Hsin-Ni, Teneberg, Susann, Maier, Olaf, Hoekstra, Dick, Dahlgren, Claes, Davidson, Donald J., and Bylund, Johan

Abstract

ABSTRACTLL-37 is a cationic host defense peptide that is highly expressed during acute inflammation and that kills bacteria by poorly defined mechanisms, resulting in permeabilization of microbial membranes. High concentrations of LL-37 have also been reported to have cytotoxic effects against eukaryotic cells, but the peptide is clearly capable of differentiating between membranes with different compositions (eukaryotic versus bacterial membranes). Eukaryotic cells such as leukocytes change their membrane composition during apoptotic cell death, when they are turned into nonfunctional but structurally intact entities. We tested whether LL-37 exerted specific activity on apoptotic cells and found that the peptide selectively permeabilized the membranes of apoptotic human leukocytes, leaving viable cells unaffected. This activity was seemingly analogous to the direct microbicidal effect of LL-37, in that it was rapid, independent of known surface receptors and/or active cell signaling, and inhibitable by serum components such as high-density lipoprotein. A similar selective permeabilization of apoptotic cells was recorded for both NK cells and neutrophils. In the latter cell type, LL-37 permeabilized both the plasma and granule membranes, resulting in the release of both lactate dehydrogenase and myeloperoxidase. Apoptosis is a way for inflammatory cells to die silently and minimize collateral tissue damage by retaining tissue-damaging and proinflammatory substances within intact membranes. Permeabilization of apoptotic leukocytes by LL-37, accompanied by the leakage of cytoplasmic as well as intragranular molecules, may thus shift the balance between pro- and anti-inflammatory signals and in this way be of importance for the termination of acute inflammation.

Published

2009