Your search keyword '"Bellio N"' showing total 33 results

1. In situ stoichiometry amounts of p62 and poly-ubiquitin exceed the increase of alpha-synuclein during degeneration of catecholamine cells induced by autophagy inhibition in vitro.

Author

Lenzi P, Lazzeri G, Ferrucci M, Busceti CL, Puglisi-Allegra S, and Fornai F

Subjects

Animals, Polyubiquitin metabolism, Neurons metabolism, Neurons pathology, Catecholamines metabolism, Rats, Adenine pharmacology, Adenine analogs & derivatives, Sirolimus pharmacology, Nerve Degeneration metabolism, Nerve Degeneration pathology, alpha-Synuclein metabolism, Autophagy physiology, Sequestosome-1 Protein metabolism

Abstract

Neurodegenerative disorders are typically featured by the occurrence of neuronal inclusions. In the case of Parkinson's disease (PD) these correspond to Lewy bodies (LBs), which are routinely defined as proteinaceous inclusions composed of alpha-synuclein (alpha-syn). In turn, alpha-syn is considered to be the key protein in producing PD and fostering its progression. Recent studies challenged such a concept and emphasized the occurrence of other proteins such as p62 and poly-ubiquitin (Poly-ub) in the composition of LBs, which are also composed of large amounts of tubulo-vesicular structures. All these components, which accumulate within the cytosol of affected neurons in PD, may be the consequence of a dysfunction of major clearing pathways. In fact, autophagy-related systems are constantly impaired in inherited PD and genetic models of PD. The present study was designed to validate whether a pharmacological inhibition of autophagy within catecholamine cells produces cell damage and accumulation of specific proteins and tubulo-vesicular structures. The stoichiometry counts of single proteins, which accumulate within catecholamine neurons was carried out along with the area of tubulo-vesicular structures. In these experimental conditions p62 and Poly-ub accumulation exceeded at large the amounts of alpha-syn. In those areas where Poly-ub and p62 were highly expressed, tubulo-vesicular structures were highly represented compared with surrounding cytosol. The present study confirms new vistas about LBs composition and lends substance to the scenario that autophagy inhibition rather than a single protein dysfunction as key determinant of PD., Competing Interests: Declarations. Conflict of interest: The authors have no competing interests to declare that are relevant to the content of this article., (© 2024. The Author(s).)

Published

2024

2. Discovery of Novel Biomarkers with Extended Non-Coding RNA Interactor Networks from Genetic and Protein Biomarkers.

Author

Jezernik, Gregor, Glavač, Damjan, Skok, Pavel, Krušič, Martina, Potočnik, Uroš, and Gorenjak, Mario

Subjects

NON-coding RNA, GENE ontology, ONLINE databases, DISEASE susceptibility, MELANOGENESIS

Abstract

Curated online interaction databases and gene ontology tools have streamlined the analysis of highly complex gene/protein networks. However, understanding of disease pathogenesis has gradually shifted from a protein-based core to complex interactive networks where non-coding RNA (ncRNA) is thought to play an essential role. As current gene ontology is based predominantly on protein-level information, there is a growing need to analyze networks with ncRNA. In this study, we propose a gene ontology workflow integrating ncRNA using the NPInter V5.0 database. To validate the proposed workflow, we analyzed our previously published curated biomarker datasets for hidden disease susceptibility processes and pharmacogenomics. Our results show a novel involvement of melanogenesis in psoriasis response to biological drugs in general. Hyperpigmentation has been previously observed in psoriasis following treatment with currently indicated biological drugs, thus calling attention to melanogenesis research as a response biomarker in psoriasis. Moreover, our proposed workflow highlights the need to critically evaluate computed ncRNA interactions within databases and a demand for gene ontology analysis of large miRNA blocks. [ABSTRACT FROM AUTHOR]

Published

2024

3. Methamphetamine Increases Tubulo-Vesicular Areas While Dissipating Proteins from Vesicles Involved in Cell Clearance.

Author

Lazzeri, Gloria, Lenzi, Paola, Busceti, Carla L., Puglisi-Allegra, Stefano, Ferrucci, Michela, and Fornai, Francesco

Subjects

PARKINSON'S disease, ORGANELLES, LYSOSOMES, DEGENERATION (Pathology), DRUGS of abuse

Abstract

Cytopathology induced by methamphetamine (METH) is reminiscent of degenerative disorders such as Parkinson's disease, and it is characterized by membrane organelles arranged in tubulo-vesicular structures. These areas, appearing as clusters of vesicles, have never been defined concerning the presence of specific organelles. Therefore, the present study aimed to identify the relative and absolute area of specific membrane-bound organelles following a moderate dose (100 µM) of METH administered to catecholamine-containing PC12 cells. Organelles and antigens were detected by immunofluorescence, and they were further quantified by plain electron microscopy and in situ stoichiometry. This analysis indicated an increase in autophagosomes and damaged mitochondria along with a decrease in lysosomes and healthy mitochondria. Following METH, a severe dissipation of hallmark proteins from their own vesicles was measured. In fact, the amounts of LC3 and p62 were reduced within autophagy vacuoles compared with the whole cytosol. Similarly, LAMP1 and Cathepsin-D within lysosomes were reduced. These findings suggest a loss of compartmentalization and confirm a decrease in the competence of cell clearing organelles during catecholamine degeneration. Such cell entropy is consistent with a loss of energy stores, which routinely govern appropriate subcellular compartmentalization. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Effectiveness of Mindfulness in the Treatment of Methamphetamine Addiction Symptoms: Does Neuroplasticity Play a Role?

Author

Chmiel, James, Malinowska, Agnieszka, Rybakowski, Filip, and Leszek, Jerzy

Subjects

ADDICTIONS, MINDFULNESS-based cognitive therapy, TREATMENT of addictions, TRANSCRANIAL direct current stimulation, NEUROPLASTICITY

Abstract

Introduction: Methamphetamine is a highly stimulating psychoactive drug that causes life-threatening addictions and affects millions of people around the world. Its effects on the brain are complex and include disturbances in the neurotransmitter systems and neurotoxicity. There are several known treatment methods, but their effectiveness is moderate. It must be emphasised that no drugs have been approved for treatment. For this reason, there is an urgent need to develop new, effective, and safe treatments for methamphetamine. One of the potential treatments is mindfulness meditation. In recent years, this technique has been researched extensively in the context of many neurological and psychiatric disorders. Methods: This review explores the use of mindfulness in the treatment of methamphetamine addiction. Searches were conducted in the PubMed/Medline, Research Gate, and Cochrane databases. Results: Ten studies were identified that used mindfulness-based interventions in the treatment of methamphetamine addiction. The results show that mindfulness is an effective form of reducing hunger, risk of relapses, stress indicators, depression, and aggression, alone or in combination with transcranial direct current stimulation (tDCS). Mindfulness also improved the cognitive function in addicts. The included studies used only behavioural measures. The potential mechanisms of mindfulness in addiction were explained, and it was proposed that it can induce neuroplasticity, alleviating the symptoms of addiction. Conclusions: Evidence from the studies suggest that mindfulness may be an effective treatment option for methamphetamine addiction, used alone or in combination with tDCS. However, further high-quality research is required to establish the role of this treatment option in this field. The use of neuroimaging and neurophysiological measures is fundamental to understand the mechanisms of mindfulness. [ABSTRACT FROM AUTHOR]

Published

2024

5. Pharmacotherapy developments in autophagy inhibitors for bladder cancer.

Author

Chaaya, Celine, Zgheib, Ghady, and Karak, Fadi el

Subjects

AUTOPHAGY, BLADDER cancer treatment, CHEMICAL inhibitors, DRUG therapy, BLADDER cancer

Abstract

Introduction: Autophagy is an intracellular process that plays a key role in the cellular homeostasis. Recently, it has been described as a potential therapeutic target in oncology, whether by activating or inhibiting its different cascades. Autophagy inhibitors interact with different molecular processes of the hallmarks of cancer. Areas covered: Multiple proteins of the autophagy cascade could be aimed by specific inhibitors in many tumors, notably bladder cancer. In fact, bladder cancer has been increasing in prevalence over the last decade, and resistance to conventional treatment has been extensively reported in the literature. Autophagy inhibitors in bladder cancer have been described in preclinical studies to increase the sensitivity of the tumor to chemotherapy and radiotherapy. This paper is a review of the literature, which selected randomized trials, cohort studies, and case--control studies documenting the relationship between autophagy inhibitors and bladder cancer treatment. Expert opinion: Autophagy is a promising pathway for cancer cell targeting that opens the horizons for a potential new therapeutic area in particular the multidisciplinary management of bladder cancer. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Molecular Mechanism and Therapeutic Application of Autophagy for Urological Disease.

Author

Chueh, Kuang-Shun, Lu, Jian-He, Juan, Tai-Jui, Chuang, Shu-Mien, and Juan, Yung-Shun

Subjects

URINARY organ diseases, LYSOSOMES, AUTOPHAGY, BLADDER obstruction, PENILE erection, NORTHERN blot, INTERSTITIAL cystitis, WESTERN immunoblotting

Abstract

Autophagy is a lysosomal degradation process known as autophagic flux, involving the engulfment of damaged proteins and organelles by double-membrane autophagosomes. It comprises microautophagy, chaperone-mediated autophagy (CMA), and macroautophagy. Macroautophagy consists of three stages: induction, autophagosome formation, and autolysosome formation. Atg8-family proteins are valuable for tracking autophagic structures and have been widely utilized for monitoring autophagy. The conversion of LC3 to its lipidated form, LC3-II, served as an indicator of autophagy. Autophagy is implicated in human pathophysiology, such as neurodegeneration, cancer, and immune disorders. Moreover, autophagy impacts urological diseases, such as interstitial cystitis /bladder pain syndrome (IC/BPS), ketamine-induced ulcerative cystitis (KIC), chemotherapy-induced cystitis (CIC), radiation cystitis (RC), erectile dysfunction (ED), bladder outlet obstruction (BOO), prostate cancer, bladder cancer, renal cancer, testicular cancer, and penile cancer. Autophagy plays a dual role in the management of urologic diseases, and the identification of potential biomarkers associated with autophagy is a crucial step towards a deeper understanding of its role in these diseases. Methods for monitoring autophagy include TEM, Western blot, immunofluorescence, flow cytometry, and genetic tools. Autophagosome and autolysosome structures are discerned via TEM. Western blot, immunofluorescence, northern blot, and RT-PCR assess protein/mRNA levels. Luciferase assay tracks flux; GFP-LC3 transgenic mice aid study. Knockdown methods (miRNA and RNAi) offer insights. This article extensively examines autophagy's molecular mechanism, pharmacological regulation, and therapeutic application involvement in urological diseases. [ABSTRACT FROM AUTHOR]

Published

2023

7. Targeting Sigma Receptors for the Treatment of Neurodegenerative and Neurodevelopmental Disorders.

Author

Malar, Dicson S., Thitilertdecha, Premrutai, Ruckvongacheep, Kanokphorn S., Brimson, Sirikalaya, Tencomnao, Tewin, and Brimson, James M.

Subjects

SIGMA receptors, ALZHEIMER'S disease, NEURODEGENERATION, MOTOR neuron diseases, NEURODEVELOPMENTAL treatment, DRUG receptors, DEEP brain stimulation

Abstract

The sigma-1 receptor is a 223 amino acid-long protein with a recently identified structure. The sigma-2 receptor is a genetically unrelated protein with a similarly shaped binding pocket and acts to influence cellular activities similar to the sigma-1 receptor. Both proteins are highly expressed in neuronal tissues. As such, they have become targets for treating neurological diseases, including Alzheimer's disease (AD), Huntington's disease (HD), Parkinson's disease (PD), multiple sclerosis (MS), Rett syndrome (RS), developmental and epileptic encephalopathies (DEE), and motor neuron disease/amyotrophic lateral sclerosis (MND/ALS). In recent years, there have been many pre-clinical and clinical studies of sigma receptor (1 and 2) ligands for treating neurological disease. Drugs such as blarcamesine, dextromethorphan and pridopidine, which have sigma-1 receptor activity as part of their pharmacological profile, are effective in treating multiple aspects of several neurological diseases. Furthermore, several sigma-2 receptor ligands are under investigation, including CT1812, rivastigmine and SAS0132. This review aims to provide a current and up-to-date analysis of the current clinical and pre-clinical data of drugs with sigma receptor activities for treating neurological disease. [ABSTRACT FROM AUTHOR]

Published

2023

8. Energy metabolism disturbance in migraine: From a mitochondrial point of view.

Author

Yicheng Wang, Yongli Wang, Guangxin Yue, and Yonglie Zhao

Subjects

ENERGY metabolism, FREE radicals, MIGRAINE aura, MITOCHONDRIAL pathology, CALCITONIN gene-related peptide, SPREADING cortical depression, MIGRAINE, KREBS cycle

Abstract

Migraine is a serious central nervous system disease with a high incidence rate. Its pathogenesis is very complex, which brings great difficulties for clinical treatment. Recently, many studies have revealed that mitochondrial dysfunction may play a key role in migraine, which affects the hyperosmotic of Ca2+, the excessive production of free radicals, the decrease of mitochondrial membrane potential, the imbalance of mPTP opening and closing, and the decrease of oxidative phosphorylation level, which leads to neuronal energy exhaustion and apoptosis, and finally lessens the pain threshold and migraine attack. This article mainly introduces cortical spreading depression, a pathogenesis of migraine, and then damages the related function of mitochondria, which leads to migraine. Oxidative phosphorylation and the tricarboxylic acid cycle are the main ways to provide energy for the body. 95 percent of the energy needed for cell survival is provided by the mitochondrial respiratory chain. At the same time, hypoxia can lead to cell death and migraine. The pathological opening of the mitochondrial permeability transition pore can promote the interaction between pro-apoptotic protein and mitochondrial, destroy the structure of mPTP, and further lead to cell death. The increase of mPTP permeability can promote the accumulation of reactive oxygen species, which leads to a series of changes in the expression of proteins related to energy metabolism. Both Nitric oxide and Calcitonin gene-related peptide are closely related to the attack of migraine. Recent studies have shown that changes in their contents can also affect the energy metabolism of the body, so this paper reviews the above mechanisms and discusses the mechanism of brain energy metabolism of migraine, to provide new strategies for the prevention and treatment of migraine and promote the development of individualized and accurate treatment of migraine. [ABSTRACT FROM AUTHOR]

Published

2023

9. Granitic affinity mineralization in the central portion of the Colangüil batholith. Province of San Juan, Argentina.

Author

Wetten, Aníbal F.

Subjects

MINERALIZATION, BATHOLITHS, GRANITE, FLUID inclusions

Abstract

Copyright of Boletín Geológico y Minero is the property of Instituto Tecnologico Geominero De Espana and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

10. Underlying Mechanism of Lysosomal Membrane Permeabilization in CNS Injury: A Literature Review.

Author

Xiang L, Lou J, Zhao J, Geng Y, Zhang J, Wu Y, Zhao Y, Tao Z, Li Y, Qi J, Chen J, Yang L, and Zhou K

Abstract

Lysosomes play a crucial role in various intracellular pathways as their final destination. Various stressors, whether mild or severe, can induce lysosomal membrane permeabilization (LMP), resulting in the release of lysosomal enzymes into the cytoplasm. LMP not only plays a pivotal role in various cellular events but also significantly contributes to programmed cell death (PCD). Previous research has demonstrated the participation of LMP in central nervous system (CNS) injuries, including traumatic brain injury (TBI), spinal cord injury (SCI), subarachnoid hemorrhage (SAH), and hypoxic-ischemic encephalopathy (HIE). However, the mechanisms underlying LMP in CNS injuries are poorly understood. The occurrence of LMP leads to the activation of inflammatory pathways, increased levels of oxidative stress, and PCD. Herein, we present a comprehensive overview of the latest findings regarding LMP and highlight its functions in cellular events and PCDs (lysosome-dependent cell death, apoptosis, pyroptosis, ferroptosis, and autophagy). In addition, we consolidate the most recent insights into LMP in CNS injury by summarizing and exploring the latest advances. We also review potential therapeutic strategies that aim to preserve LMP or inhibit the release of enzymes from lysosomes to alleviate the consequences of LMP in CNS injury. A better understanding of the role that LMP plays in CNS injury may facilitate the development of strategic treatment options for CNS injury., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

11. Cure of Alzheimer's Dementia Requires Addressing All of the Affected Brain Cell Types.

Author

Fessel, Jeffrey

Subjects

ALZHEIMER'S disease, PIOGLITAZONE, MEMANTINE, RILUZOLE, FINGOLIMOD

Abstract

Multiple genetic, metabolic, and environmental abnormalities are known to contribute to the pathogenesis of Alzheimer's dementia (AD). If all of those abnormalities were addressed it should be possible to reverse the dementia; however, that would require a suffocating volume of drugs. Nevertheless, the problem may be simplified by using available data to address, instead, the brain cells whose functions become changed as a result of the abnormalities, because at least eleven drugs are available from which to formulate a rational therapy to correct those changes. The affected brain cell types are astrocytes, oligodendrocytes, neurons, endothelial cells/pericytes, and microglia. The available drugs include clemastine, dantrolene, erythropoietin, fingolimod, fluoxetine, lithium, memantine, minocycline, pioglitazone, piracetam, and riluzole. This article describes the ways by which the individual cell types contribute to AD's pathogenesis and how each of the drugs corrects the changes in the cell types. All five of the cell types may be involved in the pathogenesis of AD; of the 11 drugs, fingolimod, fluoxetine, lithium, memantine, and pioglitazone, each address all five of the cell types. Fingolimod only slightly addresses endothelial cells, and memantine is the weakest of the remaining four. Low doses of either two or three drugs are suggested in order to minimize the likelihood of toxicity and drug–drug interactions (including drugs used for co-morbidities). Suggested two-drug combinations are pioglitazone plus lithium and pioglitazone plus fluoxetine; a three-drug combination could add either clemastine or memantine. Clinical trials are required to validate that the suggest combinations may reverse AD. [ABSTRACT FROM AUTHOR]

Published

2023

12. Supplementary Pharmacotherapy for the Behavioral Abnormalities Caused by Stressors in Humans, Focused on Post-Traumatic Stress Disorder (PTSD).

Author

Fessel, Jeffrey

Subjects

POST-traumatic stress disorder, CHRONIC traumatic encephalopathy, DRUG therapy, BRAIN injuries, HUMAN abnormalities

Abstract

Used as a supplement to psychotherapy, pharmacotherapy that addresses all of the known metabolic and genetic contributions to the pathogenesis of psychiatric conditions caused by stressors would require an inordinate number of drugs. Far simpler is to address the abnormalities caused by those metabolic and genetic changes in the cell types of the brain that mediate the behavioral abnormality. Relevant data regarding the changed brain cell types are described in this article and are derived from subjects with the paradigmatic behavioral abnormality of PTSD and from subjects with traumatic brain injury or chronic traumatic encephalopathy. If this analysis is correct, then therapy is required that benefits all of the affected brain cell types; those are astrocytes, oligodendrocytes, synapses and neurons, endothelial cells, and microglia (the pro-inflammatory (M1) subtype requires switching to the anti-inflammatory (M2) subtype). Combinations are advocated using several drugs, erythropoietin, fluoxetine, lithium, and pioglitazone, that benefit all of the five cell types, and that should be used to form a two-drug combination, suggested as pioglitazone with either fluoxetine or lithium. Clemastine, fingolimod, and memantine benefit four of the cell types, and one chosen from those could be added to the two-drug combination to form a three-drug combination. Using low doses of chosen drugs will limit both toxicity and drug-drug interactions. A clinical trial is required to validate both the advocated concept and the choice of drugs. [ABSTRACT FROM AUTHOR]

Published

2023

13. The potential effects of nutrients and light on autophagy-mediated visual function and clearance of retinal aggregates.

Author

PINELLI, ROBERTO, BIAGIONI, FRANCESCA, SCAFFIDI, ELENA, BUMAH, VIOLET VAKUNSETH, BUSCETI, CARLA L., PUGLISI-ALLEGRA, STEFANO, LAZZERI, GLORIA, and FORNAI, FRANCESCO

Subjects

VISION, MACULAR degeneration, RETINAL diseases, RHODOPSIN, RETINAL degeneration

Abstract

Increasing findings indicate that a dysfunction in the autophagy machinery is common during retinal degeneration. The present article provides evidence showing that an autophagy defect in the outer retinal layers is commonly described at the onset of retinal degeneration. These findings involve a number of structures placed at the border between the inner choroid and the outer retina encompassing the choriocapillaris, the Bruch's membrane, photoreceptors and Mueller cells. At the center of these anatomical substrates are placed cells forming the retinal pigment epithelium (RPE), where autophagy seems to play most of its effects. In fact, a failure of the autophagy flux is mostly severe at the level of RPE. Among various retinal degenerative disorders, age-related macular degeneration (AMD) is mostly affected by a damage to RPE, which can be reproduced by inhibiting the autophagy machinery and it can be counteracted by the activation of the autophagy pathway. In the present manuscript evidence is provided that such a severe impairment of retinal autophagy may be counteracted by administration of a number of phytochemicals, which possess a strong stimulatory activity on autophagy. Likewise, natural light stimulation administered in the form of pulsatile specific wavelengths is capable of inducing autophagy within the retina. This dual approach to stimulate autophagy is further strengthened by the interaction of light with phytochemicals which is shown to activate the chemical properties of these natural molecules in sustaining retinal integrity. The beneficial effects of photo-biomodulation combined with phytochemicals is based on the removal of toxic lipid, sugar and protein species along with the stimulation of mitochondrial turn-over. Additional effects of autophagy stimulation under the combined effects of nutraceuticals and light pulses are discussed concerning stimulation of retinal stem cells which partly correspond to a subpopulation of RPE cells. [ABSTRACT FROM AUTHOR]

Published

2022

14. Molecular mechanisms of programmed cell death in methamphetamine-induced neuronal damage.

Author

Dongming Guo, Xinlei Huang, Tianqing Xiong, Xingyi Wang, Jingwen Zhang, Yingge Wang, and Jingyan Liang

Subjects

ATTENTION-deficit hyperactivity disorder, MEMORY loss, DRUG addiction, PYROPTOSIS, COGNITION disorders, APOPTOSIS, CELL death

Abstract

Methamphetamine, commonly referred to as METH, is a highly addictive psychostimulant and one of the most commonly misused drugs on the planet. Using METH continuously can increase your risk for drug addiction, along with other health complications like attention deficit disorder, memory loss, and cognitive decline. Neurotoxicity caused by METH is thought to play a significant role in the onset of these neurological complications. The molecular mechanisms responsible for METH-caused neuronal damage are discussed in this review. According to our analysis, METH is closely associated with programmed cell death (PCD) in the process that causes neuronal impairment, such as apoptosis, autophagy, necroptosis, pyroptosis, and ferroptosis. In reviewing this article, some insights are gained into how METH addiction is accompanied by cell death and may help to identify potential therapeutic targets for the neurological impairment caused by METH abuse. [ABSTRACT FROM AUTHOR]

Published

2022

15. Alterations of Mitochondrial Structure in Methamphetamine Toxicity.

Author

Lenzi, Paola, Biagioni, Francesca, Busceti, Carla L., Lazzeri, Gloria, Polzella, Maico, Frati, Alessandro, Ferrucci, Michela, and Fornai, Francesco

Subjects

MITOCHONDRIA, METHAMPHETAMINE, MITOCHONDRIAL proteins, CELL death, TRANSMISSION electron microscopy, MITOCHONDRIAL membranes

Abstract

Recent evidence shows that methamphetamine (METH) produces mitochondrial alterations that contribute to neurotoxicity. Nonetheless, most of these studies focus on mitochondrial activity, whereas mitochondrial morphology remains poorly investigated. In fact, morphological evidence about the fine structure of mitochondria during METH toxicity is not available. Thus, in the present study we analyzed dose-dependent mitochondrial structural alterations during METH exposure. Light and transmission electron microscopy were used, along with ultrastructural stoichiometry of catecholamine cells following various doses of METH. In the first part of the study cell death and cell degeneration were assessed and they were correlated with mitochondrial alterations observed using light microscopy. In the second part of the study, ultrastructural evidence of specific mitochondrial alterations of crests, inner and outer membranes and matrix were quantified, along with in situ alterations of mitochondrial proteins. Neurodegeneration induced by METH correlates significantly with specific mitochondrial damage, which allows definition of a scoring system for mitochondrial integrity. In turn, mitochondrial alterations are concomitant with a decrease in fission/mitophagy protein Fis1 and DRP1 and an increase in Pink1 and Parkin in situ, at the mitochondrial level. These findings provide structural evidence that mitochondria represent both direct and indirect targets of METH-induced toxicity. [ABSTRACT FROM AUTHOR]

Published

2022

16. Autophagy: A Key Regulator of Homeostasis and Disease: An Overview of Molecular Mechanisms and Modulators.

Author

Gómez-Virgilio, Laura, Silva-Lucero, Maria-del-Carmen, Flores-Morelos, Diego-Salvador, Gallardo-Nieto, Jazmin, Lopez-Toledo, Gustavo, Abarca-Fernandez, Arminda-Mercedes, Zacapala-Gómez, Ana-Elvira, Luna-Muñoz, José, Montiel-Sosa, Francisco, Soto-Rojas, Luis O., Pacheco-Herrero, Mar, and Cardenas-Aguayo, Maria-del-Carmen

Subjects

AUTOPHAGY, COVID-19, HOMEOSTASIS, LYSOSOMES, CEREBROVASCULAR disease, CELL physiology, NEURODEGENERATION, COMMUNICABLE diseases

Abstract

Autophagy is a highly conserved lysosomal degradation pathway active at basal levels in all cells. However, under stress conditions, such as a lack of nutrients or trophic factors, it works as a survival mechanism that allows the generation of metabolic precursors for the proper functioning of the cells until the nutrients are available. Neurons, as post-mitotic cells, depend largely on autophagy to maintain cell homeostasis to get rid of damaged and/or old organelles and misfolded or aggregated proteins. Therefore, the dysfunction of this process contributes to the pathologies of many human diseases. Furthermore, autophagy is highly active during differentiation and development. In this review, we describe the current knowledge of the different pathways, molecular mechanisms, factors that induce it, and the regulation of mammalian autophagy. We also discuss its relevant role in development and disease. Finally, here we summarize several investigations demonstrating that autophagic abnormalities have been considered the underlying reasons for many human diseases, including liver disease, cardiovascular, cerebrovascular diseases, neurodegenerative diseases, neoplastic diseases, cancers, and, more recently, infectious diseases, such as SARS-CoV-2 caused COVID-19 disease. [ABSTRACT FROM AUTHOR]

Published

2022

17. Isolation, Characterization, and Autophagy Function of BECN1-Splicing Isoforms in Cancer Cells.

Author

Maheshwari, Chinmay, Vidoni, Chiara, Titone, Rossella, Castiglioni, Andrea, Lora, Claudia, Follo, Carlo, and Isidoro, Ciro

Subjects

ALTERNATIVE RNA splicing, AUTOPHAGY, CANCER prognosis, OVARIAN cancer, CANCER cells, RNA splicing

Abstract

Alternative splicing allows the synthesis of different protein variants starting from a single gene. Human Beclin 1 (BECN1) is a key autophagy regulator that acts as haploinsufficient tumor suppressor since its decreased expression correlates with tumorigenesis and poor prognosis in cancer patients. Recent studies show that BECN1 mRNA undergoes alternative splicing. Here, we report on the isolation and molecular and functional characterization of three BECN1 transcript variants (named BECN1-α, -β and -γ) in human cancer cells. In ovarian cancer NIHOVCAR3, these splicing variants were found along with the canonical wild-type. BECN1-α lacks 143 nucleotides at its C-terminus and corresponds to a variant previously described. BECN1-β and -γ lack the BCL2 homology 3 domain and other regions at their C-termini. Following overexpression in breast cancer cells MDA-MB231, we found that BECN1-α stimulates autophagy. Specifically, BECN1-α binds to Parkin and stimulates mitophagy. On the contrary, BECN1-β reduces autophagy with a dominant negative effect over the endogenous wild-type isoform. BECN1-γ maintains its ability to interact with the vacuolar protein sorting 34 and only has a slight effect on autophagy. It is possible that cancer cells utilize the alternative splicing of BECN1 for modulating autophagy and mitophagy in response to environmental stresses. [ABSTRACT FROM AUTHOR]

Published

2022

18. Construction of PIK3C3 Transgenic Pig and Its Pathogenesis of Liver Damage.

Author

Wang, Jing, Khan, Sami Ullah, Cao, Pan, Chen, Xi, Wang, Fengchong, Zou, Di, Li, Honghui, Zhao, Heng, Xu, Kaixiang, Jiao, Deling, Yang, Chang, Zhu, Feiyan, Zhang, Yaxuan, Su, Yanhua, Cheng, Wenmin, Jia, Baoyu, Qing, Yubo, Jamal, Muhammad Ameen, Zhao, Hong-Ye, and Wei, Hong-Jiang

Subjects

FETUS, SOMATIC cell nuclear transfer, SWINE, LIVER

Abstract

As a member of the PIKs family, PIK3C3 participates in autophagy and plays a central role in liver function. Several studies demonstrated that the complete suppression of PIK3C3 in mammals can cause hepatomegaly and hepatosteatosis. However, the function of PIK3C3 overexpression on the liver and other organs is still unknown. In this study, we successfully generated PIK3C3 transgenic pigs through somatic cell nuclear transfer (SCNT) by designing a specific vector for the overexpression of PIK3C3. Plasmid identification was performed through enzyme digestion and transfected into the fetal fibroblasts derived from Diannan miniature pigs. After 2 weeks of culturing, six positive colonies obtained from a total of 14 cell colonies were identified through PCR. One positive cell line was selected as the donor cell line for SCNT for the construction of PIK3C3transgenic pigs. Thirty single blastocysts were collected and identified as PIK3C3 transgenic-positive blastocysts. Two surrogates became pregnant after transferring the reconstructed embryos into four surrogates. Fetal fibroblasts of PIK3C3-positive fetuses identified through PCR were used as donor cells for SCNT to generate PIK3C3 transgenic pigs. To further explore the function of PIK3C3 overexpression, genotyping and phenotyping of the fetuses and piglets obtained were performed by PCR, immunohistochemical, HE, and apoptosis staining. The results showed that inflammatory infiltration and vacuolar formation in hepatocytes and apoptotic cells, and the mRNA expression of NF-κB, TGF-β1, TLR4, TNF-α, and IL-6 significantly increased in the livers of PIK3C3 transgenic pigs when compared with wild-type (WT) pigs. Immunofluorescence staining showed that LC3B and LAMP-1-positive cells increased in the livers of PIK3C3 transgenic pigs. In the EBSS-induced autophagy of the porcine fibroblast cells (PFCs), the accumulated LC3II protein was cleared faster in PIK3C3 transgenic (PFCs) thanWT (PFCs). In conclusion, PIK3C3 overexpression promoted autophagy in the liver and associated molecular mechanisms related to the activation of ULK1, AMBR1, DRAM1, and MTOR, causing liver damage in pigs. Therefore, the construction of PIK3C3 transgenic pigs may provide a new experimental animal resource for liver diseases. [ABSTRACT FROM AUTHOR]

Published

2022

19. High Expression of the Lysosomal Protease Cathepsin D Confers Better Prognosis in Neuroblastoma Patients by Contrasting EGF-Induced Neuroblastoma Cell Growth.

Author

Secomandi, Eleonora, Salwa, Amreen, Vidoni, Chiara, Ferraresi, Alessandra, Follo, Carlo, and Isidoro, Ciro

Subjects

CELL growth, CATHEPSIN D, NEUROBLASTOMA, PROGNOSIS, LYSOSOMES, CELL cycle

Abstract

Neuroblastoma is a malignant extracranial solid tumor arising from the sympathoadrenal lineage of the neural crest and is often associated with N-MYC amplification. Cathepsin D has been associated with chemoresistance in N-MYC-overexpressing neuroblastomas. Increased EGFR expression also has been associated with the aggressive behavior of neuroblastomas. This work aimed to understand the mechanisms linking EGFR stimulation and cathepsin D expression with neuroblastoma progression and prognosis. Gene correlation analysis in pediatric neuroblastoma patients revealed that individuals bearing a high EGFR transcript level have a good prognosis only when CTSD (the gene coding for the lysosomal protease Cathepsin D, CD) is highly expressed. Low CTSD expression was associated with poor clinical outcome. CTSD expression was negatively correlated with CCNB2, CCNA2, CDK1 and CDK6 genes involved in cell cycle division. We investigated the biochemical pathways downstream to EGFR stimulation in human SH-SY5Y neuroblastoma cells engineered for overexpressing or silencing of CD expression. Cathepsin D overexpression decreased the proliferative potential of neuroblastoma cells through downregulation of the pro-oncogenic MAPK signaling pathway. EGFR stimulation downregulated cathepsin D expression, thus favoring cell cycle division. Our data suggest that chemotherapeutics that inhibit the EGFR pathway, along with stimulators of cathepsin D synthesis and activity, could benefit neuroblastoma prognosis. [ABSTRACT FROM AUTHOR]

Published

2022

20. Protein clearance strategies for disease intervention.

Author

Hommen, Franziska, Bilican, Saygın, and Vilchez, David

Subjects

CELL physiology, HUNTINGTON disease, CELL survival, AMYOTROPHIC lateral sclerosis, PROTEINS

Abstract

Protein homeostasis, or proteostasis, is essential for cell function and viability. Unwanted, damaged, misfolded and aggregated proteins are degraded by the ubiquitin–proteasome system (UPS) and the autophagy-lysosome pathway. Growing evidence indicates that alterations in these major proteolytic mechanisms lead to a demise in proteostasis, contributing to the onset and development of distinct diseases. Indeed, dysregulation of the UPS or autophagy is linked to several neurodegenerative, infectious and inflammatory disorders as well as cancer. Thus, modulation of protein clearance pathways is a promising approach for therapeutics. In this review, we discuss recent findings and open questions on how targeting proteolytic mechanisms could be applied for disease intervention. [ABSTRACT FROM AUTHOR]

Published

2022

21. Combined pulses of light and sound in the retina with nutraceuticals may enhance the recovery of foveal holes.

Author

PINELLI, ROBERTO, BERTI, CATERINA, SCAFFIDI, ELENA, LAZZERI, GLORIA, BUMAH, VIOLET VAKUNSETH, RUFFOLI, RICCARDO, BIAGIONI, FRANCESCA, BUSCETI, CARLA LETIZIA, PUGLISI-ALLEGRA, STEFANO, and FORNAI, FRANCESCO

Subjects

MACULAR degeneration, RETINA, RETINAL degeneration, NEURONAL differentiation, FUNCTIONAL foods

Abstract

The present manuscript stems from evidence, which indicates that specific wavelength produce an activation of the autophagy pathway in the retina. These effects were recently reported to synergize with the autophagy-inducing properties of specific phytochemicals. The combined administration of photo-modulation and phytochemicals was recently shown to have a strong potential in eliciting the recovery in the course of retinal degeneration and it was suggested as a non-invasive approach named "Lugano protocol" to treat age-related macular degeneration (AMD). Recent translational findings indicate that the protective role of autophagy may extend also to acute neuronal injuries including traumatic neuronal damage. At the same time, very recent investigations indicate that autophagy activation and retinal anatomical recovery may benefit from sound exposure. Therefore, in the present study, the anatomical rescue of a traumatic neuronal loss at macular level was investigated in a patient with idiopathic macular hole by using a combined approach of physical and chemical non-invasive treatments. In detail, light exposure was administered in combination with sound pulses to the affected retina. This treatment was supplemented by phytochemicals known to act as autophagy inducers, which were administered orally for 6 months. This combined administration of light and sound with nutraceuticals reported here as Advanced Lugano's Protocol (ALP) produced a remarkable effect in the anatomical architecture of the retina affected by the macular hole. The anatomical recovery was almost complete at roughly one year after diagnosis and beginning of treatment. The structural healing of the macular hole was concomitant with a strong improvement of visual acuity and the disappearance of metamorphopsia. The present findings are discussed in the light of a synergism shown at neuronal level between light and sound in the presence of phytochemicals to stimulate autophagy and promote proliferation and neuronal differentiation of retinal stem cells. [ABSTRACT FROM AUTHOR]

Published

2022

22. Scalp Acupuncture Attenuates Brain Damage After Intracerebral Hemorrhage Through Enhanced Mitophagy and Reduced Apoptosis in Rats.

Author

Liu, Peng, Yu, Xinyang, Dai, Xiaohong, Zou, Wei, Yu, Xueping, Niu, Mingming, Chen, Qiuxin, Teng, Wei, Kong, Ying, Guan, Ruiqiao, and Liu, Xiaoying

Subjects

CEREBRAL hemorrhage, BRAIN damage, CAUDATE nucleus, AUTOPHAGY, ACUPUNCTURE

Abstract

To study the effect of scalp acupuncture (SA) on the mitophagy signaling pathway in the caudate nucleus of Sprague-Dawley rats following intracerebral hemorrhage (ICH). An ICH model was established by injecting autologous arterial blood into the caudate nucleus in 200 male Sprague-Dawley rats, which were divided into five groups: sham, ICH, 3-methyladenine group (3-MA, 30 mg/kg), SA, and SA+3-MA. Animals were analyzed at 6 and 24 h as well as at 3 and 7 days. Composite neurological scale score was significantly higher in the SA group than in the ICH group. Transmission electron microscopy showed less structural damage and more autophagic vacuoles within brain in the SA group than in the ICH group. SA group showed higher levels of Beclin1, Parkin, PINK1, NIX protein, and a lower level of Caspase-9 in brain tissue. These animals consequently showed less neural cell apoptosis. Compared with the SA group, however, the neural function score and levels of mitophagy protein in the SA+3-MA group were decreased, neural cell apoptosis was increased with more severe structural damage, which suggested that 3-MA may antagonize the protective effect of SA on brain in rats with ICH. SA may mitigate the neurologic impairment after ICH by enhancing mitophagy and reducing apoptosis. [ABSTRACT FROM AUTHOR]

Published

2021

23. The neurobiology of nutraceuticals combined with light exposure, a case report in the course of retinal degeneration.

Author

PINELLI, ROBERTO, BERTELLI, MIORICA, SCAFFIDI, ELENA, BUMAH, VIOLET VAKUNSETH, BIAGIONI, FRANCESCA, BUSCETI, CARLA LETIZIA, PUGLISI-ALLEGRA, STEFANO, and FORNAI, FRANCESCO

Subjects

RETINAL degeneration, RETINAL diseases, DEGENERATION (Pathology), NEUROBIOLOGY, FUNCTIONAL foods, RETINAL injuries, EYE diseases

Abstract

The present article presents a case report and discusses the neurobiology underlying the potential neuro-repair induced by combined administration of phytochemicals in a patient undergoing photo-bio-modulation (PBM), which improves anatomical and clinical abnormalities in the course of age-related macular degeneration (AMD). After combined treatments the patient with nutraceuticals and PBM had noticeable improvement of retinal tissue with excellent vision for her age and no worsening of corneal guttae, which was present at the time of diagnosis. The present treatment was tailored, based on translational evidence, to improve the autophagy pathway, which is a key determinant in the onset and progression of AMD. In fact, treatment with specific patterns of light exposure combined with specific phytochemicals, may synergize in improving the microanatomy of the retina by restoring its neurobiology. The combination of light exposure, at selective wavelengths, with the effects produced by the intake of specific phytochemicals to treat AMD is reported here as "Lugano Protocol". Such a clinical protocol represents an "in progress" development backed up by translational research. In fact, recent evidence indicates that, specific phytochemicals, when administered in combination may promote anatomical and functional integrity within the retina. These in turn synergize with analogous effects produced by specific wavelengths, when administered at specific time intervals. The synergism between specific light and combined phytochemicals is discussed at molecular level, where recent data indicate how these treatments, when delivered according to specific patterns, may enhance autophagy in the retina. The improvement of retinal morphology and visual acuity, observed in this case report is thoroughly discussed in the light of the key role of autophagy in regulating the integrity of the retinal epithelium. Despite exciting, and consistent with translational evidence, the clinical report of a disease modifying effect during AMD owns the inherent limit of a case report, which requires wide validation in large number of patients. The potential effectiveness of "Lugano protocol" may apply to other types of retinal degenerations, where common alterations in the autophagy pathway do occur. Thus, such a therapeutic approach may extend to a common late stage of retinal trans-synaptic degeneration, where maladaptive plasticity during several types of retinal degenerative disorders eventually converge. [ABSTRACT FROM AUTHOR]

Published

2021

24. Comprehensive Research on Past and Future Therapeutic Strategies Devoted to Treatment of Amyotrophic Lateral Sclerosis.

Author

Sever, Belgin, Ciftci, Halilibrahim, DeMirci, Hasan, Sever, Hilal, Ocak, Firdevs, Yulug, Burak, Tateishi, Hiroshi, Tateishi, Takahisa, Otsuka, Masami, Fujita, Mikako, and Başak, Ayşe Nazlı

Subjects

SKELETAL muscle, PLURIPOTENT stem cells, AMYOTROPHIC lateral sclerosis, MUSCLE weakness, MUSCULAR atrophy, BRAIN stimulation, NEURODEGENERATION

Abstract

Amyotrophic lateral sclerosis (ALS) is a rapidly debilitating fatal neurodegenerative disorder, causing muscle atrophy and weakness, which leads to paralysis and eventual death. ALS has a multifaceted nature affected by many pathological mechanisms, including oxidative stress (also via protein aggregation), mitochondrial dysfunction, glutamate-induced excitotoxicity, apoptosis, neuroinflammation, axonal degeneration, skeletal muscle deterioration and viruses. This complexity is a major obstacle in defeating ALS. At present, riluzole and edaravone are the only drugs that have passed clinical trials for the treatment of ALS, notwithstanding that they showed modest benefits in a limited population of ALS. A dextromethorphan hydrobromide and quinidine sulfate combination was also approved to treat pseudobulbar affect (PBA) in the course of ALS. Globally, there is a struggle to prevent or alleviate the symptoms of this neurodegenerative disease, including implementation of antisense oligonucleotides (ASOs), induced pluripotent stem cells (iPSCs), CRISPR-9/Cas technique, non-invasive brain stimulation (NIBS) or ALS-on-a-chip technology. Additionally, researchers have synthesized and screened new compounds to be effective in ALS beyond the drug repurposing strategy. Despite all these efforts, ALS treatment is largely limited to palliative care, and there is a strong need for new therapeutics to be developed. This review focuses on and discusses which therapeutic strategies have been followed so far and what can be done in the future for the treatment of ALS. [ABSTRACT FROM AUTHOR]

Published

2022

25. Regulation of Autophagy by the Glycogen Synthase Kinase-3 (GSK-3) Signaling Pathway.

Author

Pan, Hsuan-Yeh and Valapala, Mallika

Subjects

CELLULAR signal transduction, PROTEIN kinase C, AUTOPHAGY, GLYCOGEN synthase kinase-3

Abstract

Autophagy is a vital cellular mechanism that benefits cellular maintenance and survival during cell stress. It can eliminate damaged or long-lived organelles and improperly folded proteins to maintain cellular homeostasis, development, and differentiation. Impaired autophagy is associated with several diseases such as cancer, neurodegenerative diseases, and age-related macular degeneration (AMD). Several signaling pathways are associated with the regulation of the autophagy pathway. The glycogen synthase kinase-3 signaling pathway was reported to regulate the autophagy pathway. In this review, we will discuss the mechanisms by which the GSK-3 signaling pathway regulates autophagy. Autophagy and lysosomal function are regulated by transcription factor EB (TFEB). GSK-3 was shown to be involved in the regulation of TFEB nuclear expression in an mTORC1-dependent manner. In addition to mTORC1, GSK-3β also regulates TFEB via the protein kinase C (PKC) and the eukaryotic translation initiation factor 4A-3 (eIF4A3) signaling pathways. In addition to TFEB, we will also discuss the mechanisms by which the GSK-3 signaling pathway regulates autophagy by modulating other signaling molecules and autophagy inducers including, mTORC1, AKT and ULK1. In summary, this review provides a comprehensive understanding of the role of the GSK-3 signaling pathway in the regulation of autophagy. [ABSTRACT FROM AUTHOR]

Published

2022

26. Protein Aggregation in the ER: Calm behind the Storm.

Author

Li, Haisen and Sun, Shengyi

Subjects

ENDOPLASMIC reticulum, PROTEIN folding, MEMBRANE proteins, PROTEOLYSIS, MOLECULAR chaperones, ORGANELLES, PROTEINS

Abstract

As one of the largest organelles in eukaryotic cells, the endoplasmic reticulum (ER) plays a vital role in the synthesis, folding, and assembly of secretory and membrane proteins. To maintain its homeostasis, the ER is equipped with an elaborate network of protein folding chaperones and multiple quality control pathways whose cooperative actions safeguard the fidelity of protein biogenesis. However, due to genetic abnormalities, the error-prone nature of protein folding and assembly, and/or defects or limited capacities of the protein quality control systems, nascent proteins may become misfolded and fail to exit the ER. If not cleared efficiently, the progressive accumulation of misfolded proteins within the ER may result in the formation of toxic protein aggregates, leading to the so-called "ER storage diseases". In this review, we first summarize our current understanding of the protein folding and quality control networks in the ER, including chaperones, unfolded protein response (UPR), ER-associated protein degradation (ERAD), and ER-selective autophagy (ER-phagy). We then survey recent research progress on a few ER storage diseases, with a focus on the role of ER quality control in the disease etiology, followed by a discussion on outstanding questions and emerging concepts in the field. [ABSTRACT FROM AUTHOR]

Published

2021

27. Role of Autophagy and Reactive Oxygen Species in Cancer Treatment : Principles and Current Strategies

Author

Neeraj Mishra, Ravinder Kumar Kaundal, Neeraj Mishra, and Ravinder Kumar Kaundal

Subjects

Cell death, Cancer—Treatment, Pharmacology

Abstract

Autophagy is a catabolic process that eliminates damaged and faulty cellular components via lysosomes. It responds to adverse circumstances like nutritional deficiency, hypoxia, and oxidative damage. Reactive oxygen species (ROS) cause oxidative stress, which is a multidimensional chemical that drives various pathophysiological diseases, including cancer. In addition, the autophagy process has a double role, first preventing tumour formation, but later fostering tumour progression. A growing body of research suggests that autophagy and ROS have a complex interplay in which they can either prevent cancer growth or enhance disease genesis. While a combination of autophagy inhibitor and cytotoxic medicines is now being used in cancer treatment, investigating the potential of autophagy inhibitors for overcoming resistance to different anticancer medications and how this relates to the control of cancer micro environmental stressors raises several questions. Autophagy's dual functions as a safeguarding and cytotoxic process have drawn attention to its significance in the development of cancer.

Published

2024

28. Oxidative Stress : Its Mechanisms and Impacts on Human Health and Disease Onset

Author

Harold Zeliger and Harold Zeliger

Subjects

Oxidative stress

Abstract

Oxidative Stress: Its Impact on Human Health and Disease Onset examines all factors known to elevate oxidative stress (OS) and the mechanism of OS disease causation. Sections cover the causes and prevention of oxidative stress, the types of chemical exposures and environmental factors that precipitate disease, disease hallmarks and biomarkers, disease clusters, disease co-morbidities, free radical attacks at the cellular level, and the Oxidative Stress Index tool, its premise, and how it can be used to identify the primary causes of specific diseases and predict the likelihood of disease onset. With comprehensive coverage of not only the impact of OS due to chemical exposure but also the consequences of environmental factors, this book is a valuable resource for researchers and scientists in toxicology and environmental science, health practitioners, public health professionals, and others who wish to broaden their knowledge on this topic. - Covers the chemical exposures and environmental factors that cause oxidative stress - Provides further understanding on the mechanisms of oxidative damage response and disease - Shows how oxidative stress and its role can be determined non-invasively via the Oxidative Stress Index

Published

2023

29. Men and Welfare

Author

Anna Tarrant, Linzi Ladlow, Laura Way, Anna Tarrant, Linzi Ladlow, and Laura Way

Subjects

Men--Social conditions, Men--Government policy, Public welfare, Sex role, Welfare recipients

Abstract

This book explores the complex, evolving relationships between men, masculinities, and social welfare in contemporary context.It is inspired by themes examined in ‘Men, Gender Divisions and Welfare', an edited collection published in 1998 by Popay, Hearn, and Edwards. While international policy agendas reflect a growing commitment to critically addressing the relations between men, masculinities, and policy, in policy and popular discussions, societies continue to grapple with the question of ‘what to do with men?'This question reflects an ongoing tension between the persistence of men's power and control over welfare and policy development, alongside their ostensible avoidance of welfare services. The collection constitutes an up-to-date account of the gendered and social implications of policy and practice change for men, and their inherent contradictions and complexities, tracing both stability and change over the past 25 years.This book will appeal to students and scholars in diverse fields, particularly in sociology, social policy, applied social sciences, gerontology, gender studies, youth studies, welfare studies, politics, and social geography. Given the volume's empirical attention throughout to both policies and practice developments, it will also be of interest to those training in applied and vocational degrees such as health and social care, social work, family support, and health visiting.

Published

2023

30. Handbook of Neurotoxicity

Author

Richard M. Kostrzewa and Richard M. Kostrzewa

Subjects

Neurotoxicology

Abstract

This handbook is a reference source for identifying, characterizing, instructing on use, and describing outcomes of neurotoxin treatments – to understand mechanisms associated with toxin use; to project outcomes of neurotoxin treatments; to gauge neurotoxins as predictors of events leading to neurodegenerative disorders and as aids to rational use of neurotoxins to model disease entities. Neuroprotection is approached in different manners including those 1) afforded by therapeutic agents – clinical and preclinical; or 2) by non-drug means, such as exercise. The amorphous term ‘neurotoxin'is discussed in terms of the possible eventuality of a neuroprotectant producing an outcome of excess neuronal survival and a behavioral spectrum that might produce a dysfunction – akin to a neurotoxin's effect. This new edition significantly expands on the information provided in the first edition, providing the latest research in neurotoxicity and highlighting the relationship between specificneurotoxins and the neurodegenerative disorders they can cause. It also includes new sections on the neurotoxicity of heavy metals, fungi, and snake venom. The Handbook of Neurotoxicity is thus an instructive and valuable guide towards understanding the role of neurotoxins/neurotoxicity in the expansive field of Neuroscience, and is an indispensable tool for laboratory investigators, neuroscientists, and clinical researchers.

Published

2022

31. Mitochondrial Intoxication

Author

Marcos Roberto de Oliveira and Marcos Roberto de Oliveira

Abstract

Mitochondrial Intoxication explores the effects toxic molecules can have upon mitochondrial physiology in the human body. Each chapter is dedicated to a specific toxicant, including pollutants, food additives, illicit and pharmaceutical drugs, and heavy metals. This book considers the implications and impact these have upon mitochondria and the diseases that can result from dysfunction and impairment in the human body. Furthermore, the book provides an overview of mitochondrial physiology and assesses the advances and challenges in testing mitochondrial toxicity. Case studies exploring mitochondrial intoxication in pregnancy and in the geriatric population are also included. This is a comprehensive reference on the main toxicants impacting mitochondria in the human body, and the consequences this can have for health and disease. - Features a wide range of toxicants and their effects on mitochondrial physiology - Covers molecular markers of mitochondrial intoxication - Includes case studies that illustrate the health impacts of toxicity upon mitochondria - Considers future directions regarding the study of mitochondrial intoxication

Published

2022

32. Model Systems in Biology : History, Philosophy, and Practical Concerns

Author

Georg Striedter and Georg Striedter

Subjects

Animal models in research, Animal experimentation

Abstract

How biomedical research using various animal species and in vitro cellular systems has resulted in both major successes and translational failure.In Model Systems in Biology, comparative neurobiologist Georg Striedter examines how biomedical researchers have used animal species and in vitro cellular systems to understand and develop treatments for human diseases ranging from cancer and polio to Alzheimer's disease and schizophrenia. Although there have been some major successes, much of this “translational” research on model systems has failed to generalize to humans. Striedter explores the history of such research, focusing on the models used and considering the question of model selection from a variety of perspectives—the philosophical, the historical, and that of practicing biologists. Striedter reviews some philosophical concepts and ethical issues, including concerns over animal suffering and the compromises that result. He traces the history of the most widely used animal and in vitro models, describing how they compete with one another in a changing ecosystem of models. He examines how therapies for bacterial and viral infections, cancer, cardiovascular diseases, and neurological disorders have been developed using animal and cell culture models—and how research into these diseases has both taken advantage of and been hindered by model system differences. Finally, Striedter argues for a “big tent” biology, in which a diverse set of models and research strategies can coexist productively.

Published

2022

33. Cell Death: a Molecular Perspective

Author

Zia, Qamar, Azhar, Asim, Hassan, Nazia, Jain, Pooja, Singh, Manvi, Mirza, Mohd. Aamir, Ali, Asgar, Parveen, Shaista, Hasan, Shahnaz, Alothaim, Abdulaziz S., and Jamal, Azfar

Published

2021