Gamma Tocotrienol and Prostate Cancer: The Regulation of Two Independent Pathways to Potentiate Cell Growth Inhibition and Apoptosis

Campbell, S., Whaley, S. G., Phillips, R., Aggarwal, B. B., Stimmel, J. B., Leesnitzer, L., Blanchard, S. G., Stone, W. L., Christian, Muenyi, Krishnan, K.

01 October 2008

Dietary vitamin E, highly expressed in palm oil, exists as either tocopherols or tocotrienols. Evidence indicates that vitamin Es maybe potent cancer preventive agents. In this study, the y- and O- isoforms of vitamin E were found to he the most effective at cancer cell growth inhibition, with the tocotrienols being more effective than the tocopherols in androgen-independent PC-3 prostate cancer cells. To assure that these compounds were selective toward cancer cells, the growth arrest of PrEC normal prostate cells was compared to PC-3 cells. At concentrations of -30 iM dietary, y-vitamin Es showed no signficant growth arrest on PrEC cell growth, hut selectively inhibited growth in the PC-3 cancer cells. Moreover y-Tocotrienol demonstrated a greater potential to inhibit growth in cancer cells at these lower concentrations than did y-Tocopherol. Two independent pathways important in carcinogenesis were tested: PPAR y and NFicB. The PPAR y was up regulated by both dietary y-vitamin Es by the modulation of the endogenous ligand 15-S-HETE, while NFicB was only regulated by y-Tocotrienol. The modulation of NFicB was confirmed by the down regulation of the pro-Apoptotic proteins clAP, xIAP, and BcL-2 which potentiate apoptosis and are down stream effectors of NFicB.

gamma-tocopherol

gamma-tocotrienol

NFiB

PPAR gamma

TNF alpha

Pediatrics

Farmakologické ovlivnění nukleárních receptorů při terapii diabetes mellitus / Pharmacological interventions of nuclear receptors in diabettes mellitus

Draský, Jakub

January 2021

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Jakub Draský Supervisor: prof. PharmDr. Petr Pávek, Ph.D. Title of diploma thesis: Pharmacological influence of nuclear receptors in diabetes mellitus therapy Nuclear receptors belong to the superfamily of transcription factors, their main functions include regulating the expression of target genes. In my work I focused mainly on the group of orphan receptors, namely the pregnane X receptor (PXR) and the constitutive androstane receptor (CAR). A common feature of these receptors is their activation by a specific ligand. Both CAR and PXR have an essential function as biological sensors of hydrophobic xenobiotics when they induce enzymes I and II. phase of metabolism. They are also essential in the regulation of gluconeogenesis, insulin response, adipogenesis, cholesterol homeostasis, fatty acids, triglycerides and glycogen. The aim of this experimental work was to introduce a luciferase reporter assay method for two DNA constructs containing the promoter region of the PEPCK and CYP7A1 genes. We used the known agonist rifampicin and the antagonist SPA70 to activate/deactivate PXR. We used CITCO as a CAR receptor agonist. We first verified the functionality of the luciferase reporter gene assay...

Overcoming the 'What-Ifs': Combating Post-Purchase Anticipated Regret in an Online Retail Setting

Krallman, Alexandra

06 May 2017

This research proposes a new construct, post-purchase anticipated regret (PPAR), to expand the existing retailing and regret theory literature streams. Specifically, the purpose of this research is to understand the antecedents and consequences of post-purchase anticipated regret in an online retailing context. Study 1 uses qualitative data drawn from depth-interviews with online shoppers to investigate the pre-purchase factors that contribute to PPAR formation. Building from these results, studies 2 and 3 empirically test an original conceptual model to holistically understand PPAR. Additionally, the role of online shopping self-affirmation and regret coping strategies are explored as means to combat PPAR formation. Managerial and theoretical implications are offered, as well as research limitations and future research directions.

Online Shopping

Self-Affirmation

Coping Mechanisms

Online Retail

Regret

PPAR

Dietary Fat Regulates Metabolic and Mitogenic effects of Insulin

Ramakrishnan, Sadeesh Kumar

16 May 2012

No description available.

Biomedical Research

Insulin

Caloric restriction

CEACAM1

PPAR&945

Pten+/-

Induction of the Lipid Regulator PPAR-Delta in FoxO1 Overexpressed Skeletal Muscle

Markovic, Vesna

14 December 2018

No description available.

Biology

Physiology

PPAR-Delta

FoxO1

fatty acid metabolism

DEVELOPMENT OF NOVEL SYNTHETIC ROUTES TO THE EPOXYKETOOCTADECANOIC ACIDS (EKODES) AND THEIR BIOLOGICAL EVALUATION AS ACTIVATORS OF THE PPAR FAMILY OF NUCLEAR RECEPTORS

Eskandari, Roozbeh

27 January 2016

No description available.

Chemistry

Effects of Synthetic Ligands onHeterodimer Pairs Regarding Full-Length Human PPARa, RXRa and LXRa

Delman, Emily

26 August 2016

No description available.

Biochemistry

nuclear receptor proteins

PPAR

LXR

RXR

synthetic ligands

NUCLEAR RECEPTORS AS THERAPEUTIC TARGETS FOR ALZHEIMER’S DISEASE

Courtney, Rebecca

08 February 2017

No description available.

Neurosciences

Alzheimers disease

LXR

PPAR

Nurr1

amyloid

nuclear receptor

apoE

Ácidos graxos de cadeia média como ligantes da proteína PPAR / Medium chain fatty acids like PPAR ligand

Liberato, Marcelo Vizoná

06 February 2009

Receptores ativados da proliferação de peroxissomos (PPAR) são receptores nucleares que regulam o metabolismo de gordura e glicose, adipogênese e polarização de macrófagos, e são os mediadores da ação de uma grande classe de fármacos usada no tratamento de diabetes tipo 2, as tiazolidinadionas (TZD). Enquanto as TZDs reduzem a glicose do sangue e aumentam efetivamente a sensibilidade à insulina, elas podem também apresentar efeitos colaterais como aumento do risco de complicações cardiovasculares, ganho de peso, retenção de fluido e toxicidade hepática. Por causa disso, novos fármacos que possuem respostas mais favoráveis devem ser desenvolvidos, e o mecanismo de ativação do PPAR por ligantes vem sendo intensamente examinado. Para entender a relação entre a ligação de agonistas ao PPAR e a ativação transcricional, pretendíamos primeiramente obter cristais de PPAR-LBD (domínio de ligação ao ligante) humano na forma apo. Porém, surpreendentemente, a análise do sítio de ligação ao ligante revelou a presença de três pequenas moléculas, identificadas como ácidos nonanoicos e octanoicos. Este trabalho reporta a análise da estrutura cristalográfica do PPAR LBD complexado simultaneamente com três ácidos graxos de cadeia média (AGCM), provindos de bactérias (organismo de expressão), localizados no sítio de ligação ao ligante. A análise estrutural e funcional sugere que os AGCM são agonistas parciais que estabilizam a conformação do LBD do PPAR por mecanismo independente da hélice 12. / PPARs (peroxisome proliferator activated receptors) are nuclear receptors that regulate glucose and fat metabolism, adipogenesis and macrophage polarization and mediate actions of a major class of drugs that are used to treat type 2 diabetes, the thiazolidinediones. While TZDs reduce blood glucose and improve insulin sensitivity effectively, they can also exhibit deleterious side effects such as increased cardiovascular risk, weight gain, fluid retention and liver toxicity. Because it is desirable to develop new PPAR drugs with more favorable spectrums of response, mechanisms of PPAR ligand activation have come under intense scrutiny. To understand relationships between PPAR ligand binding and transcriptional activation, we sought to obtain apo human PPAR-LBD (ligand binding domain) crystals that diffract to high resolution. More surprisingly, close analysis of the ligand binding pocket revealed the presence of three small molecules, identified as nonanoic acid and octanoic acid. Here, we report the X-ray structural analysis of the PPAR LBD complexed with three bacterial (expression organism) medium chain fatty acids (MCFAs) that simultaneously occupy the buried ligand binding pocket (LBP). Structural and functional analysis suggests that MCFAs are partial agonists that stabilize PPAR LBD conformation, through a helix 12 independent mechanism.

Étude de la contribution des récepteurs activés par les proliférateurs de peroxysomes en physiopathologie articulaire / Peroxisome proliferator-actived receptors : contribution to articular-physiopathology

Koufany, Meriem

17 December 2015

Les récepteurs activés par les proliférateurs de peroxysomes (PPARs) sont des facteurs de transcription impliqués dans la régulation du métabolisme lipidique et de la tolérance au glucose. Les PPARs contrôlent également l’inflammation associée à de multiples pathologies, dont la polyarthrite rhumatoide. Dans les travaux présentés dans ce manuscrit, nous avons comparé les potentialités anti-arthritiques, dans un modèle expérimental, de deux agonistes synthétiques de haute affinité pour deux isotypes de PPARs, PPARα et PPARγ. Nous avons démontré qu’un traitement avec un agoniste sélectif de PPARγ, la pioglitazone, en plus de diminuer la sévérité de l’arthrite expérimentale, réduisait la perte osseuse inflammatoire en préservant la micro-architecture osseuse. Nous avons mis en évidence que PPARγ, d’une part, régulait l’expression locale et systémique de l’interleukine-17 et de RANKL, et que, d’autre part, il inhibait l’expression du facteur de transcription RORγt, acteur majeur de la voie IL-17/Th17. Les animaux déficients pour PPARγ nous ont permis de confirmer son rôle majeur dans le développement du processus arthritique. En effet, ces animaux présentent tous et de façon spontanée une arthrite associée à une augmentation du nombre de mastocytes capables de produire l’IL-17 et leur propre facteur de différenciation, le SCF dans la synoviale inflammatoire. Enfin, nous avons discuté le lien possible entre l'arthrite inflammatoire et la mastocytose à la lumière de l’étude d’un cas clinique d’un patient atteint de polyarthrite rhumatoïde concomitante à une mastocytose systémique / Peroxisome proliferator-activated receptors (PPARs) are transcription factors implicated in lipid metabolism and glucose tolerance. Once activated by specific agonists, PPARs control inflammation associated with numerous diseases, notably Rheumatoid arthritis. The first study presented here aim to compare the anti-arthritic potency of two high-affinity synthetic agonists for PPARα and PPARγ in an experimental model. Then we focused on the effect of pioglitazone, a high-affinity synthetic agonists for PPARγ, and demonstrated that a per os treatment with this agonist not only reduced experimental arthritis but also inhibited partly inflammation-related bone loss by preserving bone microarchitecture. We pointed out that PPARγ, on one hand, regulated local and systemic expression of interleukine-17 (IL-17) and RANKL and on the other hand, inhibited expression of transcription factor RORγt, a main regulator of IL-17/Th17 pathway. Study of mice deficient for PPARγ confirmed its major role in the development of the arthritic process since these mice developed spontaneously arthritis. Of interest arthritis in these mice is associated with increased number of synovial mast cells able to produce IL-17 and their own differenciation factor, the SCF. Finally, we discussed the possible link between inflammatory arthritis and mastocytosis in a case report of a patient suffering from rheumatoid arthritis concomitant to systemic mastocytosis

PPAR

Inflammation

Arthrite

Os

Interleukine-17

Mastocytes

PPAR

Inflammation

Arthritis

Bone

Interleukin-17

Mast cells

616.72

572.8