ACAT-1, Cav-1 and PrP expression in scrapie susceptible and resistant sheep

Orrù, Cristina D.; Abete, Claudia; Cannas, M. Dolores; Mulas, Claudia; Norfo, Claudia; Mandas, Antonella; Colla, Paolo La; Dessı̀, Sandra; Pani, Alessandra

doi:10.2478/s11535-009-0076-3

Cited by 4 publications

(6 citation statements)

References 26 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These results confirm and extend our previous findings in the same cell model [14] and in the ovine scrapie [11][12][13], and further support the presence of a tight association between prion infection/susceptibility and altered cholesterol homeostasis. In agreement with our results, altered cholesterol metabolism/esterification with over-expression of ACAT-1 (soat1) was reported in mice brains during the course of experimental scrapie [34, refs therein], and up-regulation of cholesterol biosynthesis was recently described following prion A total of 30x10 6 of each cell culture was collected from sub-confluent flasks.…”

Section: Discussionsupporting

confidence: 92%

“…Interestingly, Bach et al [35] presented evidence that modification of cholesterol biosynthesis appears a characteristic response of neurons and neuronal cell lines to prion challenge, and suggested that prions themselves may have the potential to alter cell cholesterol homeostasis in a cell-type specific manner. Although at present we have no mechanistic explanation for the association found in sheep between cholesterol alteration and scrapie-susceptible prion genotype [11][12][13], we can speculate that prions may as well have the potential to alter cholesterol homeostasis in a genotypetype specific manner. Whatever mechanism is involved, the emerging picture is that of a direct relationship between prion infection/replication and lipid homeostasis alterations.…”

Section: Discussionmentioning

confidence: 99%

“…Thus, efforts should be made to identify more successful therapeutic approaches, as well as novel molecular targets of prion generation. In this context, our studies on the role of cholesterol in cell susceptibility to prion infection/replication showed that brains and ex vivo dermal fibroblasts and peripheral blood mononuclear cells (PBMCs) from sheep genetically susceptible-to or suffering-from scrapie, displayed higher cholesterol ester (CE) levels than sheep carrying a scrapie-resistant genotype, and altered expression levels of the acyl-coenzymeA:cholesterolacyltransferase (ACAT-1; up-regulated) and caveolin-1 (Cav-1; down-regulated) involved in cholesterol esterification and trafficking, respectively [11][12][13]. In addition, in persistently prion-infected N2a cells, we found that drugs able to reduce the CE pool, i.e.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

In vitro synergistic anti-prion effect of cholesterol ester modulators in combination with chlorpromazine and quinacrine

et al. 2010

Self Cite

View full text Add to dashboard Cite

In vitro synergistic anti-prion effect of cholesterol ester modulators in combination with chlorpromazine and quinacrine * E-mail: pania@unica.it°These authors contributed equally to this work. Received 06 October 2009; Accepted 16 December 2009Abstract: Our studies on the role of cholesterol in prion infection/replication showed that brains and peripheral cells of sheep susceptible-to or suffering-from Scrapie were characterized by an altered cholesterol homeostasis, and that drugs affecting cholesterol ester pool were endowed with selective anti-prion activity in N2a cell lines infected with the 22L and RML prion strains. In these prion-infected N2a cell lines, we now report increased anti-prion activity of dual-drug combinations consisting of cholesterol ester modulators associated with prion inhibitors. Synergism was obtained with the cholesterol ester modulators everolimus, pioglitazone, progesterone, and verapamil associated with the anti-prion chlorpromazine, and with everolimus and pioglitazone associated with the anti-prion quinacrine. In addition, comparative lipid analyses in prion-infected vs. uninfected N2a cells, demonstrated a derangement of type and distribution of cholesterol ester, free cholesterol, and triglyceride pools in the infected cells. Single-drug treatments differently affected synthesis of the various lipid forms, whereas combined drug treatments appeared to restore a lipid profile similar to that of the untreated-uninfected cells. We conclude that the anti-prion synergistic effects of cholesterol ester modulators associated with the cholesterol-interfering anti-prion drugs chlorpromazine and quinacrine may arise from the ability of combined drugs to re-establish lipid homeostasis in the prion-infected cells. Overall, these data suggest that inhibition of prion replication can be readily potentiated by combinatorial drug treatments and that steps of cholesterol/cholesterol ester metabolism may represent suitable targets.© Versita Sp. z o.o.

show abstract

Section: Discussionsupporting

confidence: 92%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

In vitro synergistic anti-prion effect of cholesterol ester modulators in combination with chlorpromazine and quinacrine

et al. 2010

Self Cite

View full text Add to dashboard Cite

show abstract

“…A significant amount of genetic, biochemical, and pharmacological data highlighted that modifications in cholesterol esterification and trafficking are associated with Aβ and PrPsc biogenesis (Puglielli et al, 2001; Hutter-Paier et al, 2004; Bhattacharyya and Kovacs, 2010; Huttunen et al, 2010; Pani et al, 2007a,b,c, 2011; Orrù et al, 2010a,b,c). Moreover, several studies in various cell and animal models of AD evidenced that, genetic or pharmacological inhibition of ACAT activity markedly suppresses Aβ generation.…”

Section: Ce and Neurodegenerationmentioning

confidence: 99%

Cholesterol homeostasis: a key to prevent or slow down neurodegeneration

Anchisi¹,

Dessı̀²,

Pani³

et al. 2013

Front. Physio.

Self Cite

View full text Add to dashboard Cite

Neurodegeneration, a common feature for many brain disorders, has severe consequences on the mental and physical health of an individual. Typically human neurodegenerative diseases are devastating illnesses that predominantly affect elderly people, progress slowly, and lead to disability and premature death; however they may occur at all ages. Despite extensive research and investments, current therapeutic interventions against these disorders treat solely the symptoms. Therefore, since the underlying mechanisms of damage to neurons are similar, in spite of etiology and background heterogeneous, it will be of interest to identify possible trigger point of neurodegeneration enabling development of drugs and/or prevention strategies that target many disorders simultaneously. Among the factors that have been identified so far to cause neurodegeneration, failures in cholesterol homeostasis are indubitably the best investigated. The aim of this review is to critically discuss some of the main results reported in the recent years in this field mainly focusing on the mechanisms that, by recovering perturbations of cholesterol homeostasis in neuronal cells, may correct clinically relevant features occurring in different neurodegenerative disorders and, in this regard, also debate the current potential therapeutic interventions.

show abstract

“…The overall complexity of the mechanism(s) linking PrP metabolism to cellular cholesterol changes is even more complicated by the fact that prion infection/replication itself seems to have the potential to induce modifications in the cholesterol metabolism [10,11]. In this context, our recent findings in sheep scrapie indicated that modifications of cholesterol metabolism, rather than being limited to the brain, appear to be a systemic trait since also ex vivo dermal fibroblasts and blood lymphocytes of sheep suffering-from or susceptible-to scrapie display similar alterations [12][13][14]. In addition, in prion/cell systems we found that persistent infection is associated to metabolic changes involving, besides cholesterol, all major classes of intracellular lipids, and that treatments with drug combinations triggering lipid homeostasis determine a synergic inhibition of prion generation [13,15,16].…”

Section: Introductionmentioning

confidence: 99%

Pharmacologic Cholesterol Homeostasis Affects Prion Generation in a Synergistic Manner

Orrú¹,

Cannas²,

Abete³

et al. 2010

TOPROCJ

Self Cite

View full text Add to dashboard Cite

It is generally recognised that prion replication in the brain is associated with cholesterol changes. We now show that prion diseases are likely associated with systemic metabolic alterations that involve changes both in the content and distribution of the different pools of cellular cholesterol, free cholesterol and cholesterol esters, as well as of other cellular lipids, including phospholipids and triglycerides. The synergic anti-prion effect showed by drug combinations affecting cholesterol metabolism at different levels suggest that pharmacologic interventions restoring lipid homeostasis may represent a more successful therapeutic approach than drug treatments lowering cholesterol content per se (i.e. statins). Notably, our data also point to neutral lipid accumulation in peripheral cells as an easy-to-detect hallmark associated with disease and/or indicative of increased susceptibility to develop disease following infection.

show abstract

ACAT-1, Cav-1 and PrP expression in scrapie susceptible and resistant sheep

Cited by 4 publications

References 26 publications

In vitro synergistic anti-prion effect of cholesterol ester modulators in combination with chlorpromazine and quinacrine

In vitro synergistic anti-prion effect of cholesterol ester modulators in combination with chlorpromazine and quinacrine

Cholesterol homeostasis: a key to prevent or slow down neurodegeneration

Pharmacologic Cholesterol Homeostasis Affects Prion Generation in a Synergistic Manner

Contact Info

Product

Resources

About