Selina Piazza scite author profile

To date, the beta amyloid (Aβ) cascade hypothesis remains the main pathogenetic model of Alzheimer's disease (AD), but its role in the majority of sporadic AD cases is unclear. The “mitochondrial cascade hypothesis” could explain many of the biochemical, genetic, and pathological features of sporadic AD. Somatic mutations in mitochondrial DNA (mtDNA) could cause energy failure, increased oxidative stress, and accumulation of Aβ, which in a vicious cycle reinforce the mtDNA damage and the oxidative stress. Despite the evidence of mitochondrial dysfunction in AD, no causative mutations in the mtDNA have been detected so far. Indeed, results of studies on the role of mtDNA haplogroups in AD are controversial. In this review we discuss the role of the mitochondria, and especially of the mtDNA, in the cascade of events leading to neurodegeneration, dementia, and AD.

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Antioxidant capacity and protein oxidation in cerebrospinal fluid of amyotrophic lateral sclerosis

Siciliano

Piazza

Carlesi

et al. 2007

J Neurol

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Functional Diagnostics in Mitochondrial Diseases

Siciliano

Volpi

Piazza

et al. 2007

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Mitochondrial diseases (MD) with respiratory chain defects are caused by genetic mutations that determine an impairment of the electron transport chain functioning. Diagnosis often requires a complex approach with measurements of serum lactate, magnetic resonance spectroscopy (MRS), muscle histology and ultrastructure, enzymology, genetic analysis, and exercise testing. The ubiquitous distribution of the mitochondria in the human body explains the multiple organ involvement. Exercise intolerance is a common symptom of MD, due to increased dependence of skeletal muscle on anaerobic metabolism, with an excess lactate generation, phosphocreatine depletion, enhanced free radical production, reduced oxygen extraction and electron flux through the respiratory chain. MD treatment has included antioxidants (vitamin E, alpha lipoic acid), coenzyme Q10, riboflavin, creatine monohydrate, dichloroacetate and exercise training. Exercise is a particularly important tool in diagnosis as well as in the management of these diseases.

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Clinical Trials for Neuroprotection in ALS

Siciliano¹,

Carlesi²,

Pasquali

et al. 2010

CNSNDDT

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Owing to uncertainty on the pathogenic mechanisms underlying motor neuron degeneration in amyotrophic lateral sclerosis (ALS) riluzole remains the only available therapy, with only marginal effects on disease survival. Here we review some of the recent advances in the search for disease-modifying drugs for ALS based on their putative neuroprotective effetcs. A number of more or less established agents have recently been investigated also in ALS for their potential role in neuroprotection and relying on antiglutamatergic, antioxidant or antiapoptotic strategies. Among them Talampanel, beta-lactam antibiotics, Coenzyme Q10, and minocycline have been investigated. Progress has also been made in exploiting growth factors for the treatment of ALS, partly due to advances in developing effective delivery systems to the central nervous system. A number of new therapies have also been identified, including a novel class of compounds, such as heat-shock protein co-inducers, which upregulate cell stress responses, and agents promoting autophagy and mitochondriogenesis, such as lithium and rapamycin. More recently, alterations of mRNA processing were described as a pathogenic mechanism in genetically defined forms of ALS, as those related to TDP-43 and FUS-TLS gene mutations. This knowledge is expected to improve our understanding of the pathogenetic mechanism in ALS and developing more effective therapies.

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Selina Piazza

Structural and functional evaluation of cortical motor areas in Amyotrophic Lateral Sclerosis

Mitochondria, Cognitive Impairment, and Alzheimer's Disease

Antioxidant capacity and protein oxidation in cerebrospinal fluid of amyotrophic lateral sclerosis

Functional Diagnostics in Mitochondrial Diseases

Clinical Trials for Neuroprotection in ALS

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