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1.
FASEB J ; 34(1): 316-332, 2020 01.
Article in English | MEDLINE | ID: mdl-31914675

ABSTRACT

For protection from inhaled pathogens many strategies have evolved in the airways such as mucociliary clearance and cough. We have previously shown that protective respiratory reflexes to locally released bacterial bitter "taste" substances are most probably initiated by tracheal brush cells (BC). Our single-cell RNA-seq analysis of murine BC revealed high expression levels of cholinergic and bitter taste signaling transcripts (Tas2r108, Gnat3, Trpm5). We directly demonstrate the secretion of acetylcholine (ACh) from BC upon stimulation with the Tas2R agonist denatonium. Inhibition of the taste transduction cascade abolished the increase in [Ca2+]i in BC and subsequent ACh-release. ACh-release is regulated in an autocrine manner. While the muscarinic ACh-receptors M3R and M1R are activating, M2R is inhibitory. Paracrine effects of ACh released in response to denatonium included increased [Ca2+]i in ciliated cells. Stimulation by denatonium or with Pseudomonas quinolone signaling molecules led to an increase in mucociliary clearance in explanted tracheae that was Trpm5- and M3R-mediated. We show that ACh-release from BC via the bitter taste cascade leads to immediate paracrine protective responses that can be boosted in an autocrine manner. This mechanism represents the initial step for the activation of innate immune responses against pathogens in the airways.


Subject(s)
Acetylcholine/metabolism , Autocrine Communication , Calcium/metabolism , Flavoring Agents/pharmacology , Paracrine Communication , Taste/physiology , Trachea/metabolism , Animals , Chemoreceptor Cells/drug effects , Chemoreceptor Cells/metabolism , Choline O-Acetyltransferase/physiology , Mice , Mice, Inbred C57BL , Mice, Knockout , Receptors, Muscarinic/physiology , Signal Transduction , Single-Cell Analysis , TRPM Cation Channels/physiology , Taste/drug effects , Trachea/drug effects , Transcriptome
2.
Int J Mol Sci ; 19(4)2018 Apr 10.
Article in English | MEDLINE | ID: mdl-29642561

ABSTRACT

While interleukin-1ß (IL-1ß) is a potent pro-inflammatory cytokine essential for host defense, high systemic levels cause life-threatening inflammatory syndromes. ATP, a stimulus of IL-1ß maturation, is released from damaged cells along with ß-nicotinamide adenine dinucleotide (ß-NAD). Here, we tested the hypothesis that ß-NAD controls ATP-signaling and, hence, IL-1ß release. Lipopolysaccharide-primed monocytic U937 cells and primary human mononuclear leukocytes were stimulated with 2'(3')-O-(4-benzoyl-benzoyl)ATP trieethylammonium salt (BzATP), a P2X7 receptor agonist, in the presence or absence of ß-NAD. IL-1ß was measured in cell culture supernatants. The roles of P2Y receptors, nicotinic acetylcholine receptors (nAChRs), and Ca2+-independent phospholipase A2 (iPLA2ß, PLA2G6) were investigated using specific inhibitors and gene-silencing. Exogenous ß-NAD signaled via P2Y receptors and dose-dependently (IC50 = 15 µM) suppressed the BzATP-induced IL-1ß release. Signaling involved iPLA2ß, release of a soluble mediator, and nAChR subunit α9. Patch-clamp experiments revealed that ß-NAD inhibited BzATP-induced ion currents. In conclusion, we describe a novel triple membrane-passing signaling cascade triggered by extracellular ß-NAD that suppresses ATP-induced release of IL-1ß by monocytic cells. This cascade links activation of P2Y receptors to non-canonical metabotropic functions of nAChRs that inhibit P2X7 receptor function. The biomedical relevance of this mechanism might be the control of trauma-associated systemic inflammation.


Subject(s)
Interleukin-1beta/metabolism , Monocytes/metabolism , NAD/pharmacology , Adenosine Triphosphate/metabolism , Cell Line, Tumor , Cells, Cultured , Humans , Lipopolysaccharides/pharmacology , Nicotinic Antagonists/pharmacology , Phospholipase A2 Inhibitors/pharmacology , Phospholipases A2/genetics , Phospholipases A2/metabolism , Purinergic P2Y Receptor Antagonists/pharmacology , Receptors, Nicotinic/genetics , Receptors, Nicotinic/metabolism , Receptors, Purinergic P2Y/genetics , Receptors, Purinergic P2Y/metabolism
3.
Front Physiol ; 6: 87, 2015.
Article in English | MEDLINE | ID: mdl-25852573

ABSTRACT

The mouse gastro-intestinal and biliary tract mucosal epithelia harbor choline acetyltransferase (ChAT)-positive brush cells with taste cell-like traits. With the aid of two transgenic mouse lines that express green fluorescent protein (EGFP) under the control of the ChAT promoter (EGFP (ChAT) ) and by using in situ hybridization and immunohistochemistry we found that EGFP (ChAT) cells were clustered in the epithelium lining the gastric groove. EGFP (ChAT) cells were numerous in the gall bladder and bile duct, and found scattered as solitary cells along the small and large intestine. While all EGFP (ChAT) cells were also ChAT-positive, expression of the high-affinity choline transporter (ChT1) was never detected. Except for the proximal colon, EGFP (ChAT) cells also lacked detectable expression of the vesicular acetylcholine transporter (VAChT). EGFP (ChAT) cells were found to be separate from enteroendocrine cells, however they were all immunoreactive for cytokeratin 18 (CK18), transient receptor potential melastatin-like subtype 5 channel (TRPM5), and for cyclooxygenases 1 (COX1) and 2 (COX2). The ex vivo stimulation of colonic EGFP (ChAT) cells with the bitter substance denatonium resulted in a strong increase in intracellular calcium, while in other epithelial cells such an increase was significantly weaker and also timely delayed. Subsequent stimulation with cycloheximide was ineffective in both cell populations. Given their chemical coding and chemosensory properties, EGFP (ChAT) brush cells thus may have integrative functions and participate in induction of protective reflexes and inflammatory events by utilizing ACh and prostaglandins for paracrine signaling.

4.
Angew Chem Int Ed Engl ; 53(29): 7657-60, 2014 Jul 14.
Article in English | MEDLINE | ID: mdl-24895330

ABSTRACT

Photochromic ligands have been used to control a variety of biological functions, especially in neural systems. Recently, much effort has been invested in the photocontrol of ion channels and G-protein coupled receptors found in the synapse. Herein, we describe the expansion of our photopharmacological approach toward the remote control of an enzyme. Building on hallmark studies dating from the late 1960s, we evaluated photochromic inhibitors of one of the most important enzymes in synaptic transmission, acetylcholinesterase (AChE). Using structure-based design, we synthesized several azobenzene analogues of the well-known AChE inhibitor tacrine (THA) and determined their effects on enzymatic activity. One of our compounds, AzoTHA, is a reversible photochromic blocker of AChE in vitro and ex vivo with high affinity and fast kinetics. As such, AzoTHA can be used to control synaptic transmission on the neuromuscular endplate based on the light-dependent clearance of a neurotransmitter.


Subject(s)
Acetylcholinesterase/metabolism , Tacrine/chemistry
5.
Proc Natl Acad Sci U S A ; 111(22): 8287-92, 2014 Jun 03.
Article in English | MEDLINE | ID: mdl-24843119

ABSTRACT

Chemosensory cells in the mucosal surface of the respiratory tract ("brush cells") use the canonical taste transduction cascade to detect potentially hazardous content and trigger local protective and aversive respiratory reflexes on stimulation. So far, the urogenital tract has been considered to lack this cell type. Here we report the presence of a previously unidentified cholinergic, polymodal chemosensory cell in the mammalian urethra, the potential portal of entry for bacteria and harmful substances into the urogenital system, but not in further centrally located parts of the urinary tract, such as the bladder, ureter, and renal pelvis. Urethral brush cells express bitter and umami taste receptors and downstream components of the taste transduction cascade; respond to stimulation with bitter (denatonium), umami (monosodium glutamate), and uropathogenic Escherichia coli; and release acetylcholine to communicate with other cells. They are approached by sensory nerve fibers expressing nicotinic acetylcholine receptors, and intraurethral application of denatonium reflexively increases activity of the bladder detrusor muscle in anesthetized rats. We propose a concept of urinary bladder control involving a previously unidentified cholinergic chemosensory cell monitoring the chemical composition of the urethral luminal microenvironment for potential hazardous content.


Subject(s)
Acetylcholine/metabolism , Chemoreceptor Cells/metabolism , Urethra/cytology , Urethra/metabolism , Urinary Bladder/physiology , Animals , Chemoreceptor Cells/cytology , Female , Green Fluorescent Proteins/genetics , Humans , Male , Mice , Mice, Transgenic , Microvilli/physiology , Paracrine Communication/physiology , Patch-Clamp Techniques , Receptors, G-Protein-Coupled/metabolism , Receptors, G-Protein-Coupled/physiology , Sensory Receptor Cells/cytology , Sensory Receptor Cells/physiology , Taste/physiology , Tongue/cytology , Tongue/innervation , Tongue/physiology , Urethra/innervation , Urinary Bladder/innervation , Urodynamics/physiology , Urothelium/cytology , Urothelium/metabolism
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