Dyspnea

Reduced glutathione (GSH) is the most abundant non-protein thiol in mammalian cells and the preferred substrate for several enzymes in xenobiotic metabolism and antioxidant defense. It plays an important role in many cellular processes, such as cell differentiation, proliferation and apoptosis. GSH deficiency has been observed in aging and in a wide range of pathologies, including neurodegenerative disorders and cystic fibrosis (CF), as well as in several viral infections. Use of GSH as a therapeutic agent is limited because of its unfavorable biochemical and pharmacokinetic properties. Several reports have provided evidence for the use of GSH prodrugs able to replenish intracellular GSH levels. This review discusses different strategies for increasing GSH levels by supplying reversible bioconjugates able to cross the cellular membrane more easily than GSH and to provide a source of thiols for GSH synthesis.

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Recent Advances in the Treatment of Neurodegenerative Diseases Based on GSH Delivery Systems

Cacciatore

Baldassarre

Fornasari

et al. 2012

Oxidative Medicine and Cellular Longevity

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Neurodegenerative diseases, such as Parkinson's disease (PD) and Alzheimer's disease(AD), are a group of pathologies characterized by a progressive and specific loss of certain brain cell populations. Oxidative stress, mitochondrial dysfunction, and apoptosis play interrelated roles in these disorders. It is well documented that free radical oxidative damage, particularly on neuronal lipids, proteins, DNA, and RNA, is extensive in PD and AD brains. Moreover, alterations of glutathione (GSH) metabolism in brain have been implicated in oxidative stress and neurodegenerative diseases. As a consequence, the reduced GSH levels observed in these pathologies have stimulated a number of researchers to find new potential approaches for maintaining or restoring GSH levels. Unfortunately, GSH delivery to the central nervous system (CNS) is limited due to a poor stability and low bioavailability. Medicinal-chemistry- and technology-based approaches are commonly used to improve physicochemical, biopharmaceutical, and drug delivery properties of therapeutic agents. This paper will focus primarily on these approaches used in order to replenish intracellular GSH levels, which are reduced in neurodegenerative diseases. Here, we discuss the beneficial properties of these approaches and their potential implications for the future treatment of patients suffering from neurodegenerative diseases, and more specifically from PD and AD.

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L-Dopa− and Dopamine−(R)-α-Lipoic Acid Conjugates as Multifunctional Codrugs with Antioxidant Properties

et al. 2006

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A series of multifunctional codrugs (1-4), obtained by joining L-Dopa (LD) and dopamine (DA) with (R)-alpha-lipoic acid (LA), was synthesized and evaluated as potential codrugs with antioxidant and iron-chelating properties. These multifunctional molecules were synthesized to overcome the pro-oxidant effect associated with LD therapy. The physicochemical properties, together with the chemical and enzymatic stabilities of synthesized compounds, were evaluated in order to determine both their stability in aqueous medium and their sensitivity in undergoing enzymatic cleavage by rat and human plasma to regenerate the original drugs. The new compounds were tested for their radical scavenging activities, using a test involving the Fe (II)-H2O2-induced degradation of deoxyribose, and to evaluate peripheral markers of oxidative stress such as plasmatic activities of superoxide dismutase (SOD) and glutathione peroxidase (GPx) in the plasma. Furthermore, we showed the central effects of compounds 1 and 2 on spontaneous locomotor activity of rats in comparison with LD-treated animals. From the results obtained, compounds 1-4 appeared stable at a pH of 1.3 and in 7.4 buffered solution; in 80% human plasma they were turned into DA and LD. Codrugs 1-4 possess good lipophilicity (log P > 2 for all tested compounds). Compounds 1 and 2 seem to protect partially against the oxidative stress deriving from auto-oxidation and MAO-mediated metabolism of DA. This evidence, together with the "in vivo" dopaminergic activity and a sustained release of the parent drug in human plasma, allowed us to point out the potential advantages of using 1 and 2 rather than LD in treating pathologies such as Parkinson's disease, characterized by an evident decrease of DA concentration in the brain.

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2,5-Diketopiperazines as Neuroprotective Agents

Cornacchia¹,

Cacciatore

Baldassarre³

et al. 2012

MRMC

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2,5-diketopiperazines are the simplest cyclic peptides found in nature, commonly biosynthesized from amino acids by different organisms, and represent a promising class of biologically active natural products. Their peculiar heterocyclic structure confers high stability against the proteolysis and constitutes a structural requirement for the active intestinal absorption. Furthermore, the diketopiperazine-based motif is considered as a novel brain shuttle for the delivery of drugs with limited ability to cross the blood-brain barrier (BBB) and can be proposed as an ideal candidate for the rational development of new therapeutic agents. Although these cyclic peptides have been known since the beginning of the 20th century, only recently have they attracted substantial interest with respect to the wide spectrum of their biological properties, including antitumor, antiviral, antifungal, antibacterial and antihyperglycemic activities. In addition to these, the most challenging function of the diketopiperazine derivatives is related with their remarkable neuroprotective and nootropic activity. The aim of the present paper is to provide an overview of the two major classes of diketopiperazines, the TRH-related and the unsaturated derivatives both characterized by a significant ability to protect against neurotoxicity in several experimental models. The neuroprotective profile of these compounds suggests that they may have a future utility in the therapy of neuronal degeneration in vivo, potentially through several different mechanisms.

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Cyclo(His-Pro) exerts anti-inflammatory effects by modulating NF-κB and Nrf2 signalling

Minelli

Grottelli

Mierla

et al. 2012

The International Journal of Biochemistry & Cell Biology

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Detection of levodopa, dopamine and its metabolites in rat striatum dialysates following peripheral administration of l-DOPA prodrugs by mean of HPLC–EC

Cannazza

Stefano

Mosciatti

et al. 2005

Journal of Pharmaceutical and Biomedical Analysis

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Synthesis and Study ofl-Dopa−Glutathione Codrugs as New Anti-Parkinson Agents with Free Radical Scavenging Properties

et al. 2007

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A series of novel molecular combinations (1-4), in which L-dopa (LD) is linked covalently via an amide bond with glutathione (GSH), were synthesized and evaluated as potential anti-Parkinson agents with antioxidant properties. These conjugates were characterized by evaluating solubility, chemical and enzymatic stabilities, and apparent partition coefficient (log P). Derivatives 2 and 4 were tested for their radical scavenging activities, by use of a test involving the Fe(II)/H2O2-induced degradation of deoxyribose. In this study, the antioxidant efficacy of codrugs 1 and 3 was also assessed through the evaluation of plasmatic activities of superoxide dismutase (SOD) and glutathione peroxidase (GPx). Furthermore, the central nervous effects and rat striatal concentration of LD and dopamine (DA) have been evaluated after oral administration of codrugs 1 and 3. Tested compounds prolonged the plasma LD levels and were able to induce sustained delivery of DA in rat striatum with respect to an equimolar dose of LD. The results suggest that compounds 1 and 3 could represent useful new anti-Parkinson agents devoid of the pro-oxidant effects associated with LD therapy and potentially able to restore the GSH depletion evidenced in the substantia nigra pars compacta (SNpc) of PD patients.

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Biological Active Analogues of the Opioid Peptide Biphalin: Mixed α/β³-Peptides

et al. 2013

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Francesco Pinnen

Prodrug Approach for Increasing Cellular Glutathione Levels

Recent Advances in the Treatment of Neurodegenerative Diseases Based on GSH Delivery Systems

L-Dopa− and Dopamine−(R)-α-Lipoic Acid Conjugates as Multifunctional Codrugs with Antioxidant Properties

2,5-Diketopiperazines as Neuroprotective Agents

Cyclo(His-Pro) exerts anti-inflammatory effects by modulating NF-κB and Nrf2 signalling

Detection of levodopa, dopamine and its metabolites in rat striatum dialysates following peripheral administration of l-DOPA prodrugs by mean of HPLC–EC

Synthesis and Study ofl-Dopa−Glutathione Codrugs as New Anti-Parkinson Agents with Free Radical Scavenging Properties

Biological Active Analogues of the Opioid Peptide Biphalin: Mixed α/β³-Peptides

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Francesco Pinnen

Prodrug Approach for Increasing Cellular Glutathione Levels

Recent Advances in the Treatment of Neurodegenerative Diseases Based on GSH Delivery Systems

L-Dopa− and Dopamine−(R)-α-Lipoic Acid Conjugates as Multifunctional Codrugs with Antioxidant Properties

2,5-Diketopiperazines as Neuroprotective Agents

Cyclo(His-Pro) exerts anti-inflammatory effects by modulating NF-κB and Nrf2 signalling

Detection of levodopa, dopamine and its metabolites in rat striatum dialysates following peripheral administration of l-DOPA prodrugs by mean of HPLC–EC

Synthesis and Study ofl-Dopa−Glutathione Codrugs as New Anti-Parkinson Agents with Free Radical Scavenging Properties

Biological Active Analogues of the Opioid Peptide Biphalin: Mixed α/β3-Peptides

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Biological Active Analogues of the Opioid Peptide Biphalin: Mixed α/β³-Peptides