Arsenite Alters Lysosome-Mediated Degradation and the Autophagy Process Leading to Immunosuppression in Human B-Lymphoblastoid Cell Lines

Bolt, Alicia Marie

January 2012

The immune system is a target of arsenic toxicity. Epidemiological data have shown that arsenic exposure is associated with characteristics of immunosuppression. Human B-lymphoblastoid cell lines (LCL) were used as an in vitro model of immune cell targeting by arsenic to investigate the mechanism of arsenic-induced cytotoxicity, which could provided insight into the mechanism underlying arsenic-induced immunotoxicity leading to the immunosuppression observed in humans. In LCL arsenite-induced cytotoxicity was not associated with apoptosis, but associated with hallmarks of autophagy, a cell stress-responsive process that facilitates the removal of cellular components through lysosome-mediated degradation. At environmentally relevant concentrations, arsenite-induced toxicity resulted in a decrease in cell proliferation that was correlated with hallmarks of autophagy including expansion of acidic vesicles, global induction of lysosomal gene expression, increased flux of the autophagosome marker LC3-II, and increased enzymatic activity of the lysosomal hydrolase cathepsin D. Investigation of the upstream cellular damage leading to the induction of autophagy revealed that arsenite induces proteotoxic damage leading to an accumulation of protein aggregates that may be targeted to the lysosome for degradation. In addition, global gene expression data showed an enrichment of ER stress responsive genes after arsenite exposure. Further evaluation of global gene expression data indicated that the global induction of lysosomal genes occurs before the activation of ER stress genes, suggesting that the induction of autophagy may occur before the generation of ER stress. To investigate the effect of arsenite-induced proteotoxicity and autophagy on normal immune function, the ability of LCL to process and present exogenous antigens onto MHC class II molecules was evaluated. Arsenite decreased antigen presentation of the exogenous antigen HSA. This decrease was associated with decreased lysosomal degradation of the model substrate DQ-Ova, suggesting that arsenite is disrupting lysosome-mediated degradation. In addition, arsenite exposure was associated with an increase in MHC class II protein aggregates, which could render them unavailable to bind peptide fragments. Through the identification that arsenite induces proteotoxicity and autophagy in LCL, it provides novel insight into the mechanisms of arsenic-induced immunotoxicity that could lead to a better understanding of the mechanisms underlying arsenic-induced immunosuppression observed in humans.

Immunotoxicity

Lymphoblastoid

Proteotoxicity

Pharmacology & Toxicology

Arsenic

Autophagy

Sex differences in the induced expression of Hsp70 and Hsp27 in the brain and heart of rats

Rioux, Danielle

11 February 2013

There are sex differences in degenerative disease prevalence in humans. Most models of degenerative disease use male animals. Examining female and male responses to stress may give insight into disease prevalence. Heat shock proteins are chaperones linked to damaged proteins in degenerative diseases and may be expressed differentially in females and males. My goal was to characterize the induced expression of Hsp70 and Hsp27 in the brain and heart of female and male rats. Rats were heat shocked, brains and hearts were removed 24 hours after, and western analyses were done to quantify the expression of these proteins. Immunofluorescence was used to localize Hsp70 and Hsp27 in the hippocampus. Overall, male rats have significantly greater induced expression of both Hsp70 and Hsp27 in the brain. In the hippocampus, Hsp70 was localized in blood vessels and microglia, and Hsp27 was localized in astrocytes, following heat shock.

Conserved Role of Acyl-CoA Binding Proteins in Life Span Regulation / Rôle de protéine de liaison à l’acyl CoA, dans la régulation de la longévité

Shamalnasab, Mehrnaz

17 December 2012

Depuis une vingtaine d’années, il est possible d’allonger la durée de vie génétiquement. Nombre d’études réalisées sur des espèces allant de la levure aux primates, ont permis d’identifier des cascades de signaux intracellulaires ayant un impact sur la longévité et la qualité du vieillissement. Il est important de noter que certaines de ces interventions réduisent considérablement l’incidence de cancers et de maladies liées au vieillissement chez les mammifères. Ceci témoigne des liens existant entre vieillissement et carcinogénèse et il probable que le développement de stratégies pharmacologiques ayant pour cible le vieillissement se révèlent efficaces contre les maladies du vieillissement comme le cancer, la maladie d’Alzheimer ou de Parkinson. Nous avons criblé la banque de mutants de Saccharomyces cerevisiae pour identifier des mutations génétiques qui augmentent la durée de vie. La plupart des gènes identifiés se sont révélés conservés puisqu’ils influencent aussi la longévité chez C. elegans. La protéine de liaison à l’acyl-CoA (ACBP) est une petite protéine (10 kDa) qui se lie avec une haute affinité aux chaîne d’acyl-CoA esters (moyennes et longues) et les transporte vers les sites de consommation de l'acyl-CoA. ACBP est hautement conservée parmi les espèces eucaryotes et joue un rôle important dans la biosynthèse des lipides et le trafic vésiculaire. Chez Saccharomyces cerevisiae, la délétion d’ACBP (ACB1) entraîne une augmentation de la longévité et favorise la résistance au stress. Pour tester si l’impact d’ACBP sur la longévité s'étend aux eucaryotes supérieurs, nous avons exploré le lien entre les gènes codant pour des ACBPs chez Caenorhabditis elegans et la longévité en utilisant l’ARN interfèrent. Chez C. elegans, sept paralogues ACBP ont été identifiés, qui sont exprimés dans différents tissus. Nous avons constaté que la réduction de l'expression de maa-1 (codant une ACBP associée aux membranes) prolonge la durée de vie des vers sauvages. Nos résultats démontrent que: 1) une perte de fonction de maa-1 entraîne une résistance au superoxyde, 2) et aux événements protéotoxiques telle que l'agrégation protéique associées aux maladies neurodégénératives comme la maladie de Huntington. Enfin, nous avons montré que l'activité du facteur de transcription HIF-1 (hypoxia inducible factor-1) contribue à la longévité causée par la mutation maa-1. En effet, la délétion du gène hif-1 annule complètement l’augmentation de la longévité causée par maa-1. / Understanding the aging process, its regulation, and how to delay it has become a priority for an increasing number of scientists worldwide. The principal reason for this is that it is becoming more and more evident that anti-aging interventions may be effective against age-related diseases such as cancer, cardiovascular, and neurodegenerative diseases. Simple model organisms such as Caenorhabditis elegans and Saccharomyces cerevisiae have been instrumental to identify the principal genes implicated in aging whose role has turned out to be conserved in mammals. The project presented here has originated from a genome-wide screen performed in S. cerevisiae that has led to discover several novel life span-regulatory genes whose deletion prevents aging. One of these genes encodes for Acyl-CoA binding protein (ACBP). ACBP is a small (10 kDa) protein that binds medium- and long-chain fatty acyl-CoA esters with high affinity and transports them to acyl-CoA consuming processes. ACBP is highly conserved among eukaryotic species and plays important roles in lipid biosynthesis and vesicle trafficking. In S. cerevisiae, lack of ACBP (Acb1) extends longevity and promotes stress resistance. To test whether the life span-regulatory role of ACBP extends to higher eukaryotes, we explored the link between the C. elegans ACBP genes and longevity by RNAi screening. In C. elegans, seven ACBP paralogs have been identified, which are expressed in different tissues. We found that reducing the expression of maa-1 (encoding a membrane associated ACBP) extended the longevity of wild-type worms. Our results show that 1) a loss of function maa-1 mutant is resistant to the superoxide-generating agent paraquat and 2) reduction of maa-1 expression increases resistance to the proteotoxicity associated with the aggregation of the Huntington's disease-associated polyQ peptide. The activity of the anti-aging transcription factor HIF-1 (hypoxia inducible factor-1) contributes to the extended longevity caused by lack of maa-1. The effect of MAA-1 loss on longevity was fully reverted by the deletion of the hif-1 gene.

Vieillissement

Longévité

Caenorhabditis elegans

Saccharomyces cerevisiae

Acyl-CoA

Aging

Proteotoxicity

Caenorhabditis elegans

Saccharomyces cerevisiae

Acyl-CoA

Signalisation IGF et maladie d'Alzheimer : mécanismes cellulaires et moléculaires / IGF signaling and Alzheimer's disease : cellular and molecular mechanisms

George, Caroline

21 September 2016

La maladie d’Alzheimer (MA) est une neurodégénérescence liée à l’âge, caractérisée par l’agrégation intracérébrale du peptide Aβ. Plusieurs études ont montré que la signalisation insulin-like growth factor (IGF), régulateur clé de la longévité, est impliquée dans la progression de la MA. Nous avons récemment démontré que la suppression de la signalisation IGF neuronale à l’âge adulte chez un modèle de souris MA freine la progression de la pathologie amyloïde par une clairance de l’Aβ facilitée. L’objectif de ma thèse est d’identifier les mécanismes cellulaires et moléculaires liant signalisation IGF et neuroprotection contre la protéotoxicité Aβ. J’ai démontré que l’ablation de l’IGF-1R neuronal au cours du vieillissement protège des déficits cognitifs et de la neuroinflammation liée aux oligomères Aβ, et réduit substantiellement la taille du soma neuronal adulte. Pour identifier les voies impliquées dans cette neuroprotection, j’ai caractérisé le profil transcriptomique de neurones KO IGF-1R microdisséqués dans la région CA1 de l’hippocampe. J’ai démontré que la MA et l’ablation de l’IGF-1R neuronal impactent les mêmes fonctions biologiques, comme la neurotransmission, la croissance, et la transduction du signal, et presque tous les changements d’expression géniques communs à la MA et au KO IGF-1R neuronal se produisent dans le même sens. En revanche, dans les cerveaux MA, une proportion significative des gènes dérégulés par la MA sont inversés par le KO IGF-1R neuronal. Mes résultats révèlent que l’inhibition de la voie IGF neuronale à l’âge adulte protège de la pathologie Aβ en régulant l’organisation du cytosquelette, la neurotransmission, et la réponse au stress. / Alzheimer's disease (AD) is an age-related neurodegenerative disease, characterized by intracerebral amyloid-β (Aβ) peptide aggregation. Several studies have shown that insulin-like growth factor (IGF) signaling, a key regulator of longevity, is involved in AD progression. We recently showed that suppression of neuronal IGF signaling during adulthood alleviates amyloid pathology and cognitive deficits in AD mice through A clearance. In this context, the aim of my thesis was to identify the cellular and molecular mechanisms linking IGF signaling to neuronal protection against Aβ proteotoxicity. I demonstrated that ablation of neuronal IGF-1R during aging reduces cognitive deficits and neuroinflammation linked to A oligomers (AO), and induces a conspicuous decrease in neuronal soma size. To identify which pathways are involved in previously observed neuroprotection, I characterized the transcriptome profiling of microdissected hippocampal CA1 neurons from mice where neuronal IGF-1R was conditionally ablated at 3 months of age. I found that AD and neuronal IGF-1R inactivation impact on similar neuronal functions, namely neurotransmission, growth and differentiation, and signal transduction, and almost all of the changes in gene expression common to AD and IGF-1R ablation occurred in the same direction. However, in AD brains, a significant proportion of genes deregulated by AD were reversed by IGF-1R knockout. My results also reveal that inhibition of IGF signaling in adult neurons protects from A pathology by regulating cytoskeleton organization, neurotransmission, and response to stress.

Signalisation IGF

Neurone

Protéotoxicité amyloïde-beta

Maladie d'Alzheimer

Neuroprotection

Taille cellulaire.

IGF signaling

Neuron

Amyloid-beta proteotoxicity

612.8

Proteotoxicity links therapy-induced cancer cell senescence to Alzheimer’s disease

Dhawan, Dhriti

01 August 2018

Eine seneszente Zelle erfährt proteotoxischen Stress durch einen Prozess, der als “Seneszenz-assoziierter sekretorischer Phänotyp (SASP)” bezeichnet wird. SASP Faktoren involvieren vermehrte Produktion von Cytokinen und Chemokinen, die die Proteinhomöostase stören. Das führt zu Stress im Endoplasmatischen Retikulum (ER), Unfolded Protein Response (UPR) sowie erhöhter Autophagie in seneszenten Zellen. In dieser Arbeit zeigen wir, dass Therapie-induzierte Seneszenz (TIS), ausgelöst durch Adriamycin (ADR) oder Cyclophosphamid (CTX), zu einer erhöhten Expression von Alzheimer-assoziierten Genen führt. Das ist allerdings nur der Fall, wenn TIS mit SASP und Proteotoxizität korreliert. Außerdem zeigen wir, dass transgene Mäuse mit Alzheimer ebenso Eigenschaften von Seneszenz aufweisen. Mutationen in Genen wie Amyloid-Precursor-Protein (APP) und Presenilin 1 (PSEN1) erzeugen nicht nur Alzheimer, sondern verstärken auch Seneszenz. In APPPS1+/- transgenen Mäusen treten seneszente Zellen zusammen mit Amyloid β (Aβ) Plaques auf. Gleichfalls führt die Überexpression von APP in der Neuroblastom Zelllinie SH-SY5Y zu einer Erhöhung von Seneszenz-Markern, einschließlich ER Stress und Autophagie-assoziierten Lysosomen. Diese Beobachtungen implizieren einen Zusammenhang zwischen Seneszenz und Alzheimer. Wir präsentieren Proteotoxizität als gemeinsamen Nenner dieser beiden Pathologien. Allerdings kommen wir zu dem Ergebnis, dass APP und PSEN1 keine Regulatoren von TIS sind. APP trägt zur TIS-assoziierten Proteotoxizität bei, da ein knock-down von APP zu einer Reduzierung des ER Stress führt. Außerdem, können seneszente Zellen mittels Blockierung der APP Spaltung und somit Bildung von Aβ Plaques durch den Gamma-Sekretase Inhibitor Semagacestat, selektiv getötet werden. Das deutet auf ein senolytisches Potential hin. Allerdings hat Semagacestat keinen Einfluss auf die Expression von ER Stress Marker. Dies suggeriert, dass APP in Eμ-myc Lymphomen Aβ-unabhängig zu ER Stress beiträgt, während diese in Alzheimer eine zentrale Rolle in der Phathophysiologie spielen. / A senescent cell experiences proteotoxic stress in consequence to senescence-associated secretory phenotype (SASP). SASP factors involve increased production of cytokines and chemokines, which overload and disrupt protein homeostasis. This induces endoplasmic reticulum (ER) stress, unfolded protein response (UPR) as well as elevated autophagic-lysosomal burden in senescent cells, further promoting the formation of misfolded proteins. In this thesis we found, in Eμ-myc transgenic mice lymphomas, therapy-induced senescence (TIS) by Adriamycin or Cyclophosphamide treatment leads to an up regulation of genes involved in Alzheimer’s disease (AD). However, this is true only when TIS correlates with SASP, leading to proteotoxicity. On the other hand, we demonstrate that transgenic AD inflicted mice also present with features of senescence. Mutations of genes such as amyloid precursor protein (APP) and presenilin1 (PSEN1), not only engender AD, but also augment senescence. In APPPS1+/- transgenic mice, the senescent cells co-occur with amyloid β (Aβ) plaques. Likewise, in neuroblastoma cell line SH-SY5Y, APP overexpression results in upregulation of senescence markers, including markers for ER stress and autophagic-lysosomal burden. These observations imply that there is a crosstalk between senescence and AD. We demonstrate proteotoxicity as a common denominator between the two pathologies. However, we found that APP and PSEN1 are not regulators of TIS. APP contributes to proteotoxic stress associated with TIS as knocking down of APP leads to a reduction of ER stress. Inhibiting Aβ formation by targeting the processing of APP using Semagacestat- a gamma-secretase inhibitor, selectively targets senescent cells resulting in cell death. This indicates its senolytic potential. However, Semagacestat has no impact on the expression of ER stress markers. This suggested that in Eμ-myc lymphomas, APP contributes to ER stress in an Aβ-independent fashion, unlike in AD, where Aβ is considered central to its pathophysiology.

Proteotoxizität

Seneszenz

Alzheimer

APP

APP

Therapy-induced senescence

Alzheimer's

Proteotoxicity

SASP

570 Biowissenschaften; Biologie

WX 7501

YG 4012

YG 4013

YG 4018

WE 2000

ddc:570

Modelos de toxicidad inducidos por microsatélites CAG y caracterización de dianas terapéuticas en C. elegans

Gómez Escribano, Ana Pilar

24 May 2021

[ES] El equilibrio de la homeostasis de proteínas es esencial para asegurar la funcionalidad celular. La expresión de proteínas propensas a plegarse mal induce la formación de agregados tóxicos que alteran el correcto funcionamiento de estos sistemas de control, lo que conduce a un desequilibrio de la homeostasis de proteínas, y por consiguiente a una afectación patológica. Varias enfermedades neurodegenerativas, como la enfermedad de Huntington (EH), Parkinson, Alzheimer, entre otras, tienen en común esta marca patológica molecular. Especialmente, la EH pertenece a un grupo de patologías producidas por proteínas que contienen expansiones de poliQs (varias ataxias espinocerebelosas, la atrofia muscular bulbar y espinal y la atrofia dentatorubro-pálidoluisiana), que hacen que estos péptidos sean propensos a la agregación, y causen los problemas que hemos descrito. A pesar de que estas enfermedades son genéticas, y se conoce su causa molecular, se cree que la presencia de variantes alélicas en otros genes puede exacerbar o ralentizar la agregación de proteínas con poliQs. Por tanto, la identificación de estos genes permitirá profundizar en los mecanismos moduladores de la dinámica de agregación de poliQs e identificar dianas terapéuticas frente a la toxicidad de poliQs. También es ampliamente conocido que el ARN que porta tripletes CAG tiene carácter patogénico. En este trabajo hemos desarrollado modelos, empleando C. elegans, que muestran signos indirectos de que están expresando transcritos CAG patogénicos, puesto que los tejidos diana están alterados. Usamos uno de estos modelos, que perturba la función de las neuronas GABAérgicas del gusano, para realizar un cribado de 85 compuestos farmacológicos, que nos llevó a identificar cuatro compuestos que reducían los defectos motores en estos animales. Además de poliQs y transcritos CAG, también se producen péptidos derivados de una traducción no canónica, conocida como traducción RAN. En relación a esto, hemos profundizado en la identificación y modelización de estos péptidos en C. elegans mediante la expresión de expansiones CAG fusionadas a proteínas fluorescentes para su detección in vivo. Además hemos empleado otros modelos ya existentes, para caracterizar potenciales dianas terapéuticas, como AMPK, la cual puede ser activada por diferentes sustancias. Sin embargo, algunas sustancias, como la metformina o el salicilato, son pleiotrópicas. Por tanto, hemos caracterizado la activación sinérgica de AMPK, mediante metformina y salicilato, para reducir el estrés por agregados de poliQs, con lo que podríamos evitar que otras dianas resulten activadas. Por último, hemos demostrado que este tratamiento sinérgico reduce la toxicidad inducida por la α -sinucleína implicada en la enfermedad de Parkinson. Por otro lado, hemos caracterizado en C. elegans un nuevo alelo que potencia la la agregación de poliQs, vlt10, en el gen unc-1. Nuestros resultados sugieren que la mutación unc-1(vlt10) perturba la sinapsis eléctrica entre las neuronas sensoriales IL2 y ASJ, induciendo un exceso de señalización hormonal que requiere la función de la sulfotransferasa SSU-1. También hemos demostrado que la diana de esta señal es un receptor nuclear llamado NHR-1. En este mismo capítulo, hemos identificado otra ruta de señalización hormonal, mediada por otro receptor nuclear (DAF-12), que tiene un papel protector. Se desconoce qué hormona modula la actividad de NHR-1. Sin embargo, hemos identificado que algunos de los genes regulados por NHR-1 están relacionados con el metabolismo lipídico. Además, hemos observado que la disrupción de unc-1 induce la acumulación de lípidos en los gusanos, pero a la vez estos animales contienen menos ácidos grasos totales. Esto sugiere que las grasas juegan un papel fundamental en la modulación de la agregación de poliQs, y quizás señala posibles dianas terapéuticas contra enfermedades causadas / [CA] L'equilibri de l'homeòstasi de proteïnes és essencial per a assegurar la funcionalitat cel·lular. L'expressió de proteïnes propenses a plegar-se malament indueix la formació d'agregats tòxics i altera el correcte funcionament dels sistemes de control, cosa que condueix a un desequilibri de l'homeòstasi de proteïnes, i per consegüent a una afectació patològica. Diverses malalties neurodegeneratives, com la malaltia de Huntington (MH), Parkinson i Alzheimer, entre altres, tenen en comú aquesta signatura patològica. Especialment, la MH pertany a un grup de patologies produïdes per proteïnes que contenen expansions de poliQs (s'inclouen diverses atàxies espinocerebel·loses 1, 2, 3, 6, 7 i 17, l'atròfia muscular bulbar i espinal, i l'atròfia dentatorúbrica-pàl·lidaluisiana), que fan que aquests pèptids siguen propensos a l'agregació, i causen els problemes que hem descrit. Malgrat que aquestes malalties són genètiques i es coneix la seva causa molecular, es creu que la presència de variants al·lèliques en gens pot incrementar o alentir l'agregació de proteïnes amb poliQs. Per tant, la identificació de gens modificadors permet aprofundir en els mecanismes moduladors de la dinàmica d'agregació de poliQs ens permet trobar dianes terapèutiques enfront de la toxicitat de poliQs. També és àmpliament conegut que l'ARN que contenen expansions CAG té caràcter patogènic. Per tant, hem desenvolupat models, utilitzant C. elegans, en els quals es mostren signes indirectes que expressen transcrits patogènics, ja que els teixits diana revelen una funcionalitat alterada. Utilitzant aquests models, que alteren la funció de les neurones GABAèrgiques del cuc, hem realitzat un cribratge de 85 compostos farmacològics, que ens va portar a identificar quatre compostos que reduïen els defectes motors en aquests animals. A més de poliQs i l'ARN que conté expansions de CAG, es produeixen pèptids derivats d'una traducció no canònica, coneguda com a traducció RAN. En relació amb això, hem aprofundit en la identificació i modelització d'aquests pèptids en C. elegans mitjançant l'expressió d'expansions CAG fusionades a proteïnes fluorescents per a la seva detecció in vivo. A més hem emprat models ja generats, per a caracteritzar potencials dianes terapèutiques, com AMPK puga ser activat per diversos fàrmacs. No obstant això, alguns activadors, com la metformina o el salicilat, són substàncies pleiotròpiques. Per tant, hem caracteritzat l'activació sinèrgic de AMPK, mitjançant metformina i salicilat, per a reduir l'estrés induït per agregats de poliQs i s'evita l'activació de dianes no desitjades. I finalment, hem demostrat que aquest tractament sinèrgic podria ser utilitzat per a reduir proteïnes tòxiques com la α-sinucleína, causant de la malaltia de Parkinson. D'altra banda, hem caracteritzat un nou modulador de l'agregació de poliQs, vlt10, en el gen unc-1, que produeix un augment d'agregació de poliQs. Els nostres resultats suggereixen que la mutació unc-1(vlt10) pertorba la sinapsi elèctrica entre les neurones sensorials IL2 i ASJ, induint un excés de senyalització hormonal que requereix la funció de la sulfotransferasa SSU-1. També hem demostrat que la diana d'aquest senyal és un receptor nuclear anomenat NHR-1. En el mateix capítol, hem identificat una altra ruta de senyalització hormonal, mitjançada per un altre receptor nuclear (DAF-12), que té un paper protector. Es desconeix l'hormona que modula l'activitat de NHR-1. No obstant això, hem identificat que alguns del genes regulats per NHR-1 estan relacionats amb el metabolisme lipídic. els resultats han sigut confirmats. També hem observat que la disrupció de unc-1 indueix l'acumulació de lípids en els cucs, però simultàniament aquests animals contenen menys àcids grassos totals. Això suggereix que els greixos juguen un paper fonamental en la modulació de l'agregació de poliQs, i potser assenyala / [EN] The balance of protein homeostasis is essential to ensure cellular functionality. The expression of proteins that are prone to misfolding induces the formation of toxic aggregates, which leads to an imbalance in protein homeostasis and pathological consequences. Several neurodegenerative diseases, such as Huntington disease (HD), Parkinson, Alzheimer, among others, have this molecular pathological mark in common. HD belongs to a group of pathologies produced by proteins that contain expansions of polyQs (several spinocerebellar ataxias 1, 2, 3, 6, 7 and 17, bulbar and spinal muscular atrophy and the dentatorubral-pallidoluysian atrophy), which make these peptides prone to aggregation, and cause the problems described above. Although these diseases are genetic, and their molecular cause is known, it is believed that the presence of allelic variants in other genes can exacerbate or slow the polyQ aggregation. Therefore, the identification of these genes will allow delving into the modulating mechanisms of the polyQ aggregation dynamics and find therapeutic targets against the polyQ toxicity. In addition, RNA that contains CAG triplets is pathogenic. In this work we have developed models using C. elegans that show indirect signs of pathogenic transcript expression since altered functionality was observed in target tissues. We use a model, which disturbs the function of the worm's GABAergic neurons, to screen for 85 pharmacological compounds, which led us to identify four compounds that reduced motor defects in these animals. In addition to polyQs and CAG transcripts, also are produced peptides derived from a non-canonical translation, known as RAN translation. In this regard, we have delved into the identification and modelling of these peptides in C. elegans through the expression of CAG expansions fused to fluorescent proteins to investigate them in vivo. Furthermore, we have used models previously generated to characterize potential therapeutic targets, such as AMPK. This enzyme can be activated using different compounds. However, some activators, such as metformin or salicylate, are pleiotropic substances. Therefore, in the second chapter of this thesis, we have characterised the synergistic activation of AMPK, using metformin and salicylate, to reduce the stress induced by polyQ aggregates and prevent possible unwanted targets from being activated. Finally, we have shown that this synergistic treatment could be used to reduce α-synuclein toxicity, which is involved in Parkinson disease. On the other hand, we have characterised a new allele that enhances polyQ aggregation, vlt10, in the unc-1 gene. Our results suggest that the unc-1(vlt10) mutation disturbs the electrical synapse between sensory neurons IL2 and ASJ, inducing an excess of hormonal signalling that requires the function of the sulfotransferase SSU-1. We have also shown that the target of this signal is the nuclear receptor NHR-1. In the same chapter, we have identified another hormonal signalling pathway, mediated by another nuclear receptor (DAF-12), which has a protective role. It is unknown which hormone modulates the activity of NHR-1. However, we have identified several genes that regulate lipid metabolism and whose expression could be modulated by NHR-1. In addition, we have observed that the disruption of unc-1 induces the accumulation of lipids in worms, but at the same time these animals contain less total fatty acids. Thus, our results suggest that the metabolism of fats play a key role in modulating polyQs aggregation, highlighting potential therapeutic targets against diseases caused by aggregation-prone proteins. / Gómez Escribano, AP. (2021). Modelos de toxicidad inducidos por microsatélites CAG y caracterización de dianas terapéuticas en C. elegans [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/166783 / TESIS

Aggregation

RNA Toxicity

CAG expansions

RAN translation

Proteotoxicity

Autophagy

Lipid metabolism

Expansiones CAG

Agregación

Toxicidad por ARN

Traducción RAN

Proteotoxicidad

Proteostasis

Huntington

Parkinson

Alzheimer

C. elegans

AMPK

Autofagia

SSU-1

NHR-1

Metabolismo de lípidos

Exploiting proteasome function in senescence-associated proteotoxicity as target principle in lymphoma therapy

Anell Rendón, Dámaris

05 September 2022

Chemotherapien verursachen DNA-Schäden in Krebszellen, was zur Apoptose der meisten Zellen führt. Die überlebenden Zellen können in eine Therapie-induzierte Seneszenz (TIS) eintreten, die zum Zellzyklusarrest führt. Zellen in TIS weisen einen Seneszenz-assoziierten sekretorischen Phänotyp (SASP) auf – eine erhöhte Proteinproduktion, die proteotoxischen Stress bedingt. Verbliebene seneszente Zellen könnten jedoch wieder in den Zellzyklus eintreten und ihr SASP kann entzündungsfördernd wirken. Da seneszente Zellen besonders auf Proteinabbau angewiesen sind, um eine zu hohe Proteotoxizität zu vermeiden, zielten wir auf Proteindegradierungswege mit einer sekundären Therapie ab, um TIS Zellen zu eliminieren. Mittels Bcl2-überexprimierender Lymphome aus dem transgenen Eμ-myc Maus-Modell, die nach Chemotherapie in Seneszenz eintreten, und des Vergleichs mit Lymphomen, die aufgrund einer genetischen Läsion nicht seneszent werden können. identifizierten wir eine verringerte proteasomale Aktivität in TIS, die mit Kennzeichen von proteotoxischem Stress korrelierte. Dabei hängt die daraus folgende Empfindlichkeit von TIS Zellen für proteasomale Hemmung von NF-κB regulierter SASP Produktion ab. Die Kombination aus proteasomaler Hemmung durch Bortezomib und einem Autophagieblocker zeigte einen additiven Effekt auf den Zelltod von TIS Zellen. Diese Ergebnisse konnten in vivo anhand verbesserten Überlebens durch TIS-nachfolgende Sekundärtherapie von mit Lymphomen inokulierten Mäusen bestätigt werden. Schließlich konnte das Prinzip der Seneszenz-spezifischen Beseitigung von Tumorzellen unter Einsatz von Bortezomib in zwei humanen Lymphomzelllinien untermauert werden. Diese Ergebnisse zeigen, dass seneszente Zellen auf eine intakte Proteinabbau-Maschinerie angewiesen sind und auf Veränderungen in proteasomaler Aktivität empfindlich reagieren. Diese Angreifbarkeit könnte in einer neuartigen, synthetisch lethalen Strategie ausgenutzt werden, um maligne Zellen effektiv zu eliminieren. / Chemotherapy causes DNA damage in cancer cells, causing apoptosis in most, but not all cells. Surviving cells can undergo therapy-induced senescence (TIS), an emergency mechanism that arrests the cell cycle. Cells in TIS exhibit a senescence-associated secretory phenotype (SASP) - a massive increase in protein production leading to proteotoxic stress. Sustained senescent cells might reenter the cell cycle, and their SASP can stimulate dangerous inflammation. Aiming to eliminate remaining TIS cells, we reasoned that they need to reduce their excessive protein burden and avoid proteotoxicity and we therefore targeted protein degradation pathways with a secondary treatment. Using Bcl2-overexpressing lymphomas from the Eμ-myc mouse transgenic model, which become senescent after chemotherapy, and comparing them to lymphomas that do not become senescent due to a genetic impairment, we found reduced proteasomal activity in TIS, correlating to hallmarks of proteotoxic stress, such as accumulation of protein aggregates and oxidized proteins. The consequential sensitivity of TIS cells to proteasome inhibition was dependent on NF-κB governed SASP production. Very significantly, combining proteasome inhibition by bortezomib with autophagy inhibition had an additive effect on susceptibility to rapid death after TIS. These findings were confirmed by in vivo treatments improving survival of mice carrying lymphomas that had been treated into TIS. Lastly, the senescent-specific clearance of cells by bortezomib following TIS induction was confirmed using two human, lymphoid cell lines, supporting the proof-of-principle. This study suggests that senescent cells are highly dependent on protein disposal and are hypersensitive to changes in proteasome activity. This vulnerability might be exploited in a novel synthetic lethality strategy to fully eliminate malignant cells.

Seneszenz

Krebs

Proteasom

Proteotoxizität

Lymphom

Senescence

Cancer

Proteasome

Proteotoxicity

Lymphoma

570 Biologie

572 Biochemie

615 Pharmakologie und Therapeutik

XH 3212

XH 3213

XH 3215

ddc:570

ddc:572

ddc:615