RESPONSES OF <i>GYMNODINIUM BREVE</i> DAVIS TO NATURAL WATERS OF DIVERSE ORIGIN<sup>1</sup>

Fatty acid ethanolamides such as palmitoylethanolamide (PEA) and oleoylethanolamide (OEA) are lipid-derived mediators that potently inhibit pain and inflammation by ligating type-α peroxisome proliferator-activated receptors (PPAR-α). These bioactive substances are preferentially degraded by the cysteine hydrolase, N-acylethanolamine acid amidase (NAAA), which is highly expressed in macrophages. Here we describe a new class of β-lactam derivatives that are potent, selective and systemically active inhibitors of intracellular NAAA activity. The prototype of this class deactivates NAAA by covalently binding the enzyme's catalytic cysteine, and exerts profound anti-inflammatory effects in both mouse models and human macrophages. This agent may be used to probe the functions of NAAA in health and disease and as a starting point to discover better anti-inflammatory drugs.

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A new ethyladenine antagonist of adenosine A2A receptors: Behavioral and biochemical characterization as an antiparkinsonian drug

Pinna

Tronci

Schintu

et al. 2010

Neuropharmacology

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Adenosine A_2A receptor antagonists improve deficits in initiation of movement and sensory motor integration in the unilateral 6‐hydroxydopamine rat model of Parkinson's disease

Pinna

Pontis

Borsini

et al. 2007

Synapse

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Evidence obtained in rodent and primate models of Parkinson's disease (PD) and preliminary clinical trials, indicates that adenosine A(2A) receptor antagonists might represent a promising nondopaminergic therapeutic tool for the treatment of PD. Those studies demonstrated the ability of adenosine A(2A) receptor antagonists to potentiate l-dopa-mediated motor improvement, whereas very little is known about counteraction of specific motor deficits and on the effects of these compounds when administered alone. To this aim we evaluated the effects of different adenosine A(2A) receptor antagonists on initiation of movement deficits, gait impairment and sensory-motor deficits, induced in rats by a unilateral 6-hydroxydopamine lesion of dopaminergic nigrostriatal neurons. The following tests were used: (1) initiation time of stepping; (2) adjusting step (stepping with forelimb was measured as the forelimb was dragged laterally); (3) vibrissae-elicited forelimb placing (as index of sensory-motor integration deficits). Acute administration of the A(2A) receptor antagonists SCH 58261 (5 mg/kg i.p.) and ST 1535 (20 mg/kg i.p.) similarly to l-dopa (6 mg/kg i.p.) counteracted the impairments in the initiation time of stepping test, in the adjusting step and in the vibrissae-elicited forelimb placing induced by the lesion. The intensity of the effect was l-dopa > SCH 58261 > ST 1535. The results provide the first evidence that blockade of A(2A) receptors is effective in antagonizing specific motor deficit induced by DA neuron degeneration, such as initiation of movement and sensory-motor integration deficits, even without l-dopa combined administration.

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Acid Ceramidase in Melanoma

Realini

Palese

Pizzirani

et al. 2016

Journal of Biological Chemistry

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Acid ceramidase (AC) is a lysosomal cysteine amidase that controls sphingolipid signaling by lowering the levels of ceramides and concomitantly increasing those of sphingosine and its bioactive metabolite, sphingosine 1-phosphate. In the present study, we evaluated the role of AC-regulated sphingolipid signaling in melanoma. We found that AC expression is markedly elevated in normal human melanocytes and proliferative melanoma cell lines, compared with other skin cells (keratinocytes and fibroblasts) and non-melanoma cancer cells. High AC expression was also observed in biopsies from human subjects with Stage II melanoma. Immunofluorescence studies revealed that the subcellular localization of AC differs between melanocytes (where it is found in both cytosol and nucleus) and melanoma cells (where it is primarily localized to cytosol). In addition to having high AC levels, melanoma cells generate lower amounts of ceramides than normal melanocytes do. This downregulation in ceramide production appears to result from suppression of the de novo biosynthesis pathway. To test whether AC might contribute to melanoma cell proliferation, we blocked AC activity using a new potent (IC 50 ‫؍‬ 12 nM) and stable inhibitor. AC inhibition increased cellular ceramide levels, decreased sphingosine 1-phosphate levels, and acted synergistically with several, albeit not all, antitumoral agents. The results suggest that AC-controlled sphingolipid metabolism may play an important role in the control of melanoma proliferation.Ceramides are a class of bioactive lipids that regulate senescence, apoptosis, and autophagy (1). They comprise more than 200 chemically and functionally distinct molecules and are produced through either de novo biosynthesis or cleavage of preformed sphingolipid precursors in membranes (2-4). They are degraded by the action of five distinct ceramidases, which differ in sequence, structure, subcellular localization, and preferred substrates (5). Among them, acid ceramidase (AC) 2 (also known as N-acetylsphingosine amidohydrolase, ASAH1) is especially relevant due to its possible roles in cancer progression and chemoresistance (6). AC is a lysosomal cysteine amidase that catalyzes the hydrolysis of ceramide into sphingosine and fatty acid with a preference for unsaturated ceramides with 6 -16-carbon acyl chains (5). Its activation is associated with decreased cellular levels of these medium-chain ceramides, which promote senescence and apoptosis, and increased levels of sphingosine 1-phosphate (S1P), which stimulates cell proliferation and cancer cell migration (7). A bioinformatic survey of the National Cancer Institute (NCI) gene expression database conducted in 2003 identified AC as a potential candidate for the development of new biomarkers for the prognosis of melanoma (8). Supporting this possibility, subsequent studies showed that serum of melanoma patients contains AC autoantibodies (9). Moreover, experiments with melanoma cell lines in cultures have demonstrated that dacarbazine, a standard of care for the...

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The N-Acylethanolamine Acid Amidase Inhibitor ARN077 Suppresses Inflammation and Pruritus in a Mouse Model of Allergic Dermatitis

Sasso

Summa

Armirotti

et al. 2018

Journal of Investigative Dermatology

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N-acylethanolamine acid amidase (NAAA), a cysteine hydrolase highly expressed in macrophages and B lymphocytes, catalyzes the degradation of palmitoylethanolamide. Palmitoylethanolamide is an agonist of PPAR-α and an important regulator of pain and innate immunity. In this study, we investigated the properties of the NAAA inhibitor, ARN077, in a mouse model of allergic contact dermatitis. Acute topical applications of ARN077 attenuated key signs of DNFB-induced dermatitis in a dose-dependent manner. Moreover, ARN077 increased tissue palmitoylethanolamide content and normalized circulating levels of cytokines and immunoglobulin E. No such effect was seen in PPAR-α-deficient mice. Moreover, mice lacking NAAA failed to develop edema or scratching behavior after challenge with DNFB, confirming that this enzyme plays an important role in dermatitis. Consistent with this conclusion, subchronic applications of ARN077 suppressed DNFB-induced inflammation when administered either before or after the DNFB challenge. The effects of subchronic ARN077 were dose dependent and comparable in size to those produced by the steroids clobetasol and dexamethasone. Unlike the latter, however, ARN077 did not cause skin atrophy. The results identify NAAA as a promising target for the development of effective and safe treatments for atopic dermatitis and other inflammatory disorders of the skin.

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Macrophage-derived lipid agonists of PPAR-αas intrinsic controllers of inflammation

Pontis

Ribeiro

Sasso

et al. 2015

Critical Reviews in Biochemistry and Molecular Biology

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Macrophages are multi-faceted phagocytic effector cells that derive from circulating monocytes and undergo differentiation in target tissues to regulate key aspects of the inflammatory process. Macrophages produce and degrade a variety of lipid mediators that stimulate or suppress pain and inflammation. Among the analgesic and anti-inflammatory lipids released from these cells are the fatty acid ethanolamides (FAEs), which produce their effects by engaging nuclear peroxisome proliferator activated receptor-α (PPAR-α). Two members of this lipid family, palmitoylethanolamide (PEA) and oleoylethanolamide (OEA), have recently emerged as important intrinsic regulators of nociception and inflammation. These substances are released from the membrane precursor, N-acylphosphatidylethanolamine (NAPE), by the action of a NAPE-specific phospholipase D (NAPE-PLD), and in macrophage are primarily deactivated by the lysosomal cysteine amidase, N-acylethanolamine acid amidase (NAAA). NAPE-PLD and NAAA regulate FAE levels, exerting a tight control over the ability of these lipid mediators to recruit PPAR-α and attenuate the inflammatory response. This review summarizes recent findings on the contribution of the FAE-PPAR-α signaling complex in inflammation, and on NAAA inhibition as a novel mechanistic approach to treat chronic inflammatory disorders.

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Second‐Generation Non‐Covalent NAAA Inhibitors are Protective in a Model of Multiple Sclerosis

et al. 2016

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Palmitoylethanolamide (PEA) and oleoylethanolamide (OEA) are endogenous lipid mediators that suppress inflammation. Their actions are terminated by the intracellular cysteine amidase, N-acylethanolamine acid amidase (NAAA). Even though NAAA may offer a new target for anti-inflammatory therapy, the lipid-like structures and reactive warheads of current NAAA inhibitors limit the use of these agents as oral drugs. Here, we describe a series of novel benzothiazole-piperazine derivatives that inhibit NAAA in a potent and selective manner via a non-covalent mechanism. A prototype member of this class (8) displays high oral bioavailability, access to the central nervous system (CNS), and strong activity in mouse model of multiple sclerosis (MS). This compound exemplifies a second generation of non-covalent NAAA inhibitors that may be useful in the treatment of MS and other chronic CNS disorders.

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Acute perinatal asphyxia impairs non-spatial memory and alters motor coordination in adult male rats

et al. 2007

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A large body of clinical evidence suggests a possible association between perinatal asphyxia and the onset of early, as well as long-term, neurological and psychiatric disorders including cognitive deficits. The present study investigated cognitive and motor function modifications in a well characterized and clinically relevant experimental rat model of human perinatal asphyxia. The results reported here show that adult rats exposed to a single (20 min) asphyctic episode at delivery displayed: (a) a deficit in non-spatial memory, assessed in a novel object recognition task; (b) an impaired motor coordination, measured by the rotarod test. On the other hand, gross motor activity and spatial memory, evaluated in both the Y maze and the Barnes maze, were not affected by perinatal asphyxia. The results of this study provide further insights into the long-term effects of perinatal asphyxia on neurobehavioural functions.

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Silvia Pontis

A Potent Systemically Active N-Acylethanolamine Acid Amidase Inhibitor that Suppresses Inflammation and Human Macrophage Activation

A new ethyladenine antagonist of adenosine A2A receptors: Behavioral and biochemical characterization as an antiparkinsonian drug

Adenosine A_2A receptor antagonists improve deficits in initiation of movement and sensory motor integration in the unilateral 6‐hydroxydopamine rat model of Parkinson's disease

Acid Ceramidase in Melanoma

The N-Acylethanolamine Acid Amidase Inhibitor ARN077 Suppresses Inflammation and Pruritus in a Mouse Model of Allergic Dermatitis

Macrophage-derived lipid agonists of PPAR-αas intrinsic controllers of inflammation

Second‐Generation Non‐Covalent NAAA Inhibitors are Protective in a Model of Multiple Sclerosis

Acute perinatal asphyxia impairs non-spatial memory and alters motor coordination in adult male rats

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Silvia Pontis

A Potent Systemically Active N-Acylethanolamine Acid Amidase Inhibitor that Suppresses Inflammation and Human Macrophage Activation

A new ethyladenine antagonist of adenosine A2A receptors: Behavioral and biochemical characterization as an antiparkinsonian drug

Adenosine A2A receptor antagonists improve deficits in initiation of movement and sensory motor integration in the unilateral 6‐hydroxydopamine rat model of Parkinson's disease

Acid Ceramidase in Melanoma

The N-Acylethanolamine Acid Amidase Inhibitor ARN077 Suppresses Inflammation and Pruritus in a Mouse Model of Allergic Dermatitis

Macrophage-derived lipid agonists of PPAR-αas intrinsic controllers of inflammation

Second‐Generation Non‐Covalent NAAA Inhibitors are Protective in a Model of Multiple Sclerosis

Acute perinatal asphyxia impairs non-spatial memory and alters motor coordination in adult male rats

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Product

Resources

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Adenosine A_2A receptor antagonists improve deficits in initiation of movement and sensory motor integration in the unilateral 6‐hydroxydopamine rat model of Parkinson's disease