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Projects / Programmes source: ARIS

Design, synthesis and test of potencial hypolipidemic drugs with a new target

Research activity

Code Science Field Subfield
1.09.00  Natural sciences and mathematics  Pharmacy   

Code Science Field
B740  Biomedical sciences  Pharmacological sciences, pharmacognosy, pharmacy, toxicology 
P004  Natural sciences and mathematics  Biochemistry, Metabolism 
P320  Natural sciences and mathematics  Nucleic acids, protein synthesis 
P340  Natural sciences and mathematics  Lipids, steroids, membranes 
Keywords
drug design, organic synthesis of novel drugs, cholesterol, sigma ligands, sterol isomerase, transcriptome analysis
Evaluation (rules)
source: COBISS
Researchers (23)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  23598  PhD Tomaž Bratkovič  Pharmacy  Junior researcher  2004 - 2007  246 
2.  05088  PhD Manica Černe  Veterinarian medicine  Researcher  2004 - 2007  106 
3.  18992  PhD Martina Fink  Biochemistry and molecular biology  Researcher  2004 - 2007  128 
4.  20347  PhD Klementina Fon Tacer  Metabolic and hormonal disorders  Junior researcher  2004 - 2005  127 
5.  18324  PhD Gordana Glavan  Neurobiology  Researcher  2004 - 2007  151 
6.  22311  PhD Javor Kac  Pharmacy  Researcher  2006 - 2007  71 
7.  09905  PhD Darko Kocjan  Chemistry  Researcher  2004 - 2007  167 
8.  24579  PhD Tina Korošec  Pharmacy  Researcher  2004 - 2007  13 
9.  24455  PhD Miha Kotnik  Pharmacy  Junior researcher  2004 - 2007  29 
10.  18355  PhD Drago Kuzman  Physics  Researcher  2004 - 2007  64 
11.  20342  PhD Nataša Milivojevič  Neurobiology  Junior researcher  2004 - 2006  63 
12.  18549  PhD Aleksandra Milutinović Živin  Cardiovascular system  Researcher  2004 - 2007  128 
13.  19061  PhD Aleš Obreza  Pharmacy  Researcher  2004 - 2005  343 
14.  24465  PhD Luka Peternel  Cardiovascular system  Researcher  2006 - 2007  49 
15.  18323  PhD Peter Pregelj  Psychiatry  Researcher  2004 - 2007  364 
16.  20246  PhD Andrej Preželj  Biochemistry and molecular biology  Researcher  2004 - 2007  38 
17.  22459  PhD Tadeja Režen  Neurobiology  Junior researcher  2004 - 2007  261 
18.  06013  PhD Damjana Rozman  Biochemistry and molecular biology  Mentor to junior researcher  2004 - 2007  918 
19.  24289  PhD Matej Seliškar  Biochemistry and molecular biology  Junior researcher  2004 - 2007  25 
20.  23833  PhD Polona Smrdel  Pharmacy  Junior researcher  2004 - 2007  18 
21.  01878  PhD Uroš Urleb  Pharmacy  Head  2004 - 2007  382 
22.  18633  PhD Anamarija Zega  Pharmacy  Researcher  2004 - 2005  195 
23.  08289  PhD Marko Živin  Neurobiology  Mentor to junior researcher  2004 - 2007  239 
Organisations (4)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0258  Lek Pharmaceutical Company d.d.  Ljubljana  1732811  8,033 
2.  0381  University of Ljubljana, Faculty of Medicine  Ljubljana  1627066  49,311 
3.  0787  University of Ljubljana, Faculty of Pharmacy  Ljubljana  1626973  17,985 
4.  1620  University Psyhiatric Hospital  Ljubljana - Polje  1191004000  3,498 
Abstract
Novel structures will be designed based on experimental and in silico approach, in order to study dependence of drug structure on inhibition of cholesterol biosynthesis in a cell model, and to study transmembrane transport (permeability) of drugs (Caco cells, HEB). New chemical entities (NCEs) with potential inhibitory action on cholesterol biosynthesis will be synthesized in a chemically diversified space. Statins inhibit HMG-CoA reductase in the early phase of cholesterol biosynthesis, while novel derivatives inhibit cholesterol biosynthesis in a later post-squalene phase and do not influence the synthesis of important intermediates of the preceding steps. New compounds will be tested ex vivo in immortal human hepatocytes and in vivo in hyperlipidemic mouse models. Toxicological studies will also be performed. The effect of new derivatives on transcriptome will be studied by microarrays and by real time PCR in cell lines and in tissue from hiperlipidemic animals . Effects of NCEs will be compared to effects of statins. Transgenic animal models of Alzheimer s disease will be used with the aim to prevent the harmful effects of hyperlipidemic diet on specific markers of Alzheimer's disease. In this regard, cognitive behavioral models, quantitative receptor autoradiography, in situ hybridization and/or immunohistochemistry will be applied. The transfer of drugs across the blood-brain-barier will be investigated. Pharmacological behavioral models and other above mentioned techniques will be used to determine the possible direct interaction of new drugs with specific receptors in the brain.
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