Anna Stasiak scite author profile

The monoaminergic systems are the target of several drugs for the treatment of mood, motor and cognitive disorders as well as neurological conditions. In most cases, advances have occurred through serendipity, except for Parkinson's disease where the pathophysiology led almost immediately to the introduction of dopamine restoring agents. Extensive neuropharmacological studies first showed that the primary target of antipsychotics, antidepressants, and anxiolytic drugs were specific components of the monoaminergic systems. Later, some dramatic side effects associated with older medicines were shown to disappear with new chemical compounds targeting the origin of the therapeutic benefit more specifically. The increased knowledge regarding the function and interaction of the monoaminergic systems in the brain resulting from in vivo neurochemical and neurophysiological studies indicated new monoaminergic targets that could achieve the efficacy of the older medicines with fewer side-effects. Yet, this accumulated knowledge regarding monoamines did not produce valuable strategies for diseases where no monoaminergic drug has been shown to be effective. Here, we emphasize the new therapeutic and monoaminergic-based strategies for the treatment of psychiatric diseases. We will consider three main groups of diseases, based on the evidence of monoamines involvement (schizophrenia, depression, obesity), the identification of monoamines in the diseases processes (Parkinson's disease, addiction) and the prospect of the involvement of monoaminergic mechanisms (epilepsy, Alzheimer's disease, stroke). In most cases, the clinically available monoaminergic drugs induce widespread modifications of amine tone or excitability through neurobiological networks and exemplify the overlap between therapeutic approaches to psychiatric and neurological conditions. More recent developments that have resulted in improved drug specificity and responses will be discussed in this review.

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Effects of Novel Monoamine Oxidases and Cholinesterases Targeting Compounds on Brain Neurotransmitters and Behavior in Rat Model of Vascular Dementia

Stasiak¹,

Mussur²,

Unzeta³

et al. 2014

CPD

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Ciproxifan, a histamine H3 receptor antagonist, reversibly inhibits monoamine oxidase A and B

Hagenow

Stasiak

Ramsay

et al. 2017

Sci Rep

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Ciproxifan is a well-investigated histamine H3 receptor (H3R) inverse agonist/antagonist, showing an exclusively high species-specific affinity at rodent compared to human H3R. It is well studied as reference compound for H3R in rodent models for neurological diseases connected with neurotransmitter dysregulation, e.g. attention deficit hyperactivity disorder or Alzheimer’s disease. In a screening for potential monoamine oxidase A and B inhibition ciproxifan showed efficacy on both enzyme isoforms. Further characterization of ciproxifan revealed IC50 values in a micromolar concentration range for human and rat monoamine oxidases with slight preference for monoamine oxidase B in both species. The inhibition by ciproxifan was reversible for both human isoforms. Regarding inhibitory potency of ciproxifan on rat brain MAO, these findings should be considered, when using high doses in rat models for neurological diseases. As the H3R and monoamine oxidases are all capable of affecting neurotransmitter modulation in brain, we consider dual targeting ligands as interesting approach for treatment of neurological disorders. Since ciproxifan shows only moderate activity at human targets, further investigations in animals are not of primary interest. On the other hand, it may serve as starting point for the development of dual targeting ligands.

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The role of histamine in experimental ulcerative colitis in rats

et al. 2005

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Design, synthesis, andin vitroandin vivocharacterization of 1-{4-[4-(substituted)piperazin-1-yl]butyl}guanidines and their piperidine analogues as histamine H₃receptor antagonists

et al. 2019

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Anna Stasiak

Monoaminergic and Histaminergic Strategies and Treatments in Brain Diseases

Effects of Novel Monoamine Oxidases and Cholinesterases Targeting Compounds on Brain Neurotransmitters and Behavior in Rat Model of Vascular Dementia

Ciproxifan, a histamine H3 receptor antagonist, reversibly inhibits monoamine oxidase A and B

The role of histamine in experimental ulcerative colitis in rats

Design, synthesis, andin vitroandin vivocharacterization of 1-{4-[4-(substituted)piperazin-1-yl]butyl}guanidines and their piperidine analogues as histamine H₃receptor antagonists

Contact Info

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About

Anna Stasiak

Monoaminergic and Histaminergic Strategies and Treatments in Brain Diseases

Effects of Novel Monoamine Oxidases and Cholinesterases Targeting Compounds on Brain Neurotransmitters and Behavior in Rat Model of Vascular Dementia

Ciproxifan, a histamine H3 receptor antagonist, reversibly inhibits monoamine oxidase A and B

The role of histamine in experimental ulcerative colitis in rats

Design, synthesis, andin vitroandin vivocharacterization of 1-{4-[4-(substituted)piperazin-1-yl]butyl}guanidines and their piperidine analogues as histamine H3receptor antagonists

Contact Info

Product

Resources

About

Design, synthesis, andin vitroandin vivocharacterization of 1-{4-[4-(substituted)piperazin-1-yl]butyl}guanidines and their piperidine analogues as histamine H₃receptor antagonists