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Comparison of stereochemical structures of cholesterol from different sources by HPLC

Year 2012, Volume: 16 Issue: 3, 201 - 205, 07.03.2014

Abstract

ABSTRACT: It is known that only one stereoisomeric form, nat-cholesterol, naturally occurs.
Nat-cholesterol and its enantiomer, ent-cholesterol, sometimes show enantiospecific interactions
with biological molecules. If cholesterol is naturally found only one form, then the
question of “why does cholesterol show an enantiomeric selectivity?” arises. For this purpose,
stereoisomer analysis of cholesterol obtained from porcine liver and wool wax were
carried out with three different high performance liquid chromatography (HPLC) systems
including reversed-phase, reversed-phase with different cyclodextrins as a mobile phase
modifier, and chiral. Results from HPLC analysis of both cholesterol samples by permethylated
-cyclodextrin and amylose tris-(3,5-dimethylphenylcarbamate) chiral columns showed
that there was no stereoisomer of cholesterol present. However reversed-phase HPLC analysis
of cholesterol samples from porcine liver carried out with various cyclodextrins as
mobile phase modifiers presented a peak which was not observed in the analysis of cholesterol
samples from wool wax. On the other hand, different storage conditions of cholesterol
samples and addition of cyclodextrins as mobile phase modifiers produced almost identical
alterations in chromatograms of fresh samples by reversed-phase HPLC. This could be attributed
to catalytic properties of cyclodextrins. Cyclodextrins may not be suitable as a mobile
phase modifier in the stereoisomer analysis of cholesterol with high performance liquid
chromatography.
KEY WORDS: Cholesterol, stereoisomer, chromatography, chiral, cyclodextrin

References

  • Westover EJ, Covey DF. The Enantiomer of Cholesterol. J Membrane Biol 2004; 202: 61-72.
  • Ikonen E. Cellular cholesterol trafficking and compart- mentalization. Nature Rev Mol Cell Biol 2008; 9: 125-38.
  • Sarker SD, Nahar L. Chemistry for pharmacy students: general, organic and natural product chemistry. John Wiley and Sons Ltd: England, 2007.
  • Westover EJ, Lin X, Riehl TE, Ma L, Stenson WF, Covey DF, Ostlund RE. Rapid transient absorption and biliary secretion of enantiomeric cholesterol in hamsters. J Lipid Res 2006; 47: 2374-81.
  • Duncan IW, Culbreth PH, Burtis CA. Determination of free, total and esterified cholesterol by high-performance liquid chromatography. J Chromatogr B Biomed Sci Appl 1979; 162: 281-92.
  • Kummer M, Palme HJ, Werner G. Resolution of enantio- meric steroids by high performance liquid chromatog- raphy on chiral stationary phases. J Chromatogr A 1996; 749: 61-8.
  • Anderson RJ. Properties of cholesterol obtained from dif- ferent sources. J Biol Chem 1927; 71: 407-18.
  • Kaishio Y, Gardner JA. Note on Montignie’s isomer of cholesterol, and the effect of heat on cholesterol. Bio- chem J 1930; 24: 1047-50.
  • Han SM. Direct enantiomeric separations by high per- formance liquid chromatography using cyclodextrins. Biomed Chromatogr 1997; 11: 259-71.
  • Hosokawa Y, Hakamata H, Murakami T, Aoyagi S, Kuroda S, Mimaki Y, Ito A, Morosawa S, Kusu F. Elec- trochemical oxidation of cholesterol in acetonitrile leads to the formation of cholesta-4,6-dien-3-one. Electrochim Acta 2009; 54: 6412-6.
  • Bjerre J, Rousseau C, Marinescu L, Bols M. Artificial en- zymes, “Chemzymes”: current state and perspectives. Appl Microbiol Biotechnol 2008; 81: 1-11.

Comparison of stereochemical structures of cholesterol from different sources by HPLC

Year 2012, Volume: 16 Issue: 3, 201 - 205, 07.03.2014

Abstract

Kolesterol molekülünün doğada sadece bir stereoizomerik formda, nat-kolesterol, bulunduğu bilinmektedir. Nat-kolesterol ve enantiomeri olan ent-kolesterol, biyolojik moleküllerle bazen enantiospesifik etkileşimler göstermektedir. Bu durumda, kolesterol doğada bir formda bulunuyorsa “kolesterol neden enantiomerik seçicilik göstermektedir? ” sorusu ortaya çıkmaktadır. Bu amaçla, domuz karaciğeri ve koyun yün yağından elde edilen kolesterolün stereokimyasal analizleri, ters-faz, mobil faz modifiye edici ajan olarak farklı siklodekstrinlerin kullanıldığı ters-faz ve kiral’ den oluşan üç farklı HPLC metodu ile gerçekleştirilmiştir. Her iki kolesterol örneğinin, permetillenmiş -siklodekstrin ve amiloz tris-(3,5-dimetilfenilkarbamat) kiral kolonlar ile yapılan HPLC analizlerinde kolesterol stereoizomeri bulunmamaktadır. Bununla birlikte, domuz karaciğerinden elde edilen kolesterol örneğinin çeşitli siklodekstrinlerin mobil faz modifiye edici olarak kullanıldığı ters-faz HPLC analizlerinde belirlenen bir pik, koyun yün yağından elde edilen kolesterol örneklerinin analizinde gözlenmemektedir. Öte yandan, farklı bekletme koşullarındaki kolesterol örneklerinin ters-faz HPLC analizleri ile yeni hazırlanmış kolesterol örneklerinin siklodekstrinlerin mobil faza eklendiği ters-faz HPLC analizleri sonucunda, kromatogramlarda hemen hemen birbirine eş değişiklikler gözlenmektedir. Bu durum siklodekstrinlerin katalitik özelliklerine dayandırılabilir. Bu nedenle, kolesterolün HPLC ile stereoizomer analizinde mobil faz modifiye edici olarak siklodekstrinlerin kullanılması uygun olmayabilir

References

  • Westover EJ, Covey DF. The Enantiomer of Cholesterol. J Membrane Biol 2004; 202: 61-72.
  • Ikonen E. Cellular cholesterol trafficking and compart- mentalization. Nature Rev Mol Cell Biol 2008; 9: 125-38.
  • Sarker SD, Nahar L. Chemistry for pharmacy students: general, organic and natural product chemistry. John Wiley and Sons Ltd: England, 2007.
  • Westover EJ, Lin X, Riehl TE, Ma L, Stenson WF, Covey DF, Ostlund RE. Rapid transient absorption and biliary secretion of enantiomeric cholesterol in hamsters. J Lipid Res 2006; 47: 2374-81.
  • Duncan IW, Culbreth PH, Burtis CA. Determination of free, total and esterified cholesterol by high-performance liquid chromatography. J Chromatogr B Biomed Sci Appl 1979; 162: 281-92.
  • Kummer M, Palme HJ, Werner G. Resolution of enantio- meric steroids by high performance liquid chromatog- raphy on chiral stationary phases. J Chromatogr A 1996; 749: 61-8.
  • Anderson RJ. Properties of cholesterol obtained from dif- ferent sources. J Biol Chem 1927; 71: 407-18.
  • Kaishio Y, Gardner JA. Note on Montignie’s isomer of cholesterol, and the effect of heat on cholesterol. Bio- chem J 1930; 24: 1047-50.
  • Han SM. Direct enantiomeric separations by high per- formance liquid chromatography using cyclodextrins. Biomed Chromatogr 1997; 11: 259-71.
  • Hosokawa Y, Hakamata H, Murakami T, Aoyagi S, Kuroda S, Mimaki Y, Ito A, Morosawa S, Kusu F. Elec- trochemical oxidation of cholesterol in acetonitrile leads to the formation of cholesta-4,6-dien-3-one. Electrochim Acta 2009; 54: 6412-6.
  • Bjerre J, Rousseau C, Marinescu L, Bols M. Artificial en- zymes, “Chemzymes”: current state and perspectives. Appl Microbiol Biotechnol 2008; 81: 1-11.
There are 11 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Basri Satılmış This is me

Tayfun Güldür This is me

Arzu Karakurt This is me

Ebru Büyüktuncel This is me

Mevlüt Ertan This is me

Publication Date March 7, 2014
Published in Issue Year 2012 Volume: 16 Issue: 3

Cite

APA Satılmış, B., Güldür, T., Karakurt, A., Büyüktuncel, E., et al. (2014). Comparison of stereochemical structures of cholesterol from different sources by HPLC. Marmara Pharmaceutical Journal, 16(3), 201-205. https://doi.org/10.12991/mpj.78583
AMA Satılmış B, Güldür T, Karakurt A, Büyüktuncel E, Ertan M. Comparison of stereochemical structures of cholesterol from different sources by HPLC. Marmara Pharm J. March 2014;16(3):201-205. doi:10.12991/mpj.78583
Chicago Satılmış, Basri, Tayfun Güldür, Arzu Karakurt, Ebru Büyüktuncel, and Mevlüt Ertan. “Comparison of Stereochemical Structures of Cholesterol from Different Sources by HPLC”. Marmara Pharmaceutical Journal 16, no. 3 (March 2014): 201-5. https://doi.org/10.12991/mpj.78583.
EndNote Satılmış B, Güldür T, Karakurt A, Büyüktuncel E, Ertan M (March 1, 2014) Comparison of stereochemical structures of cholesterol from different sources by HPLC. Marmara Pharmaceutical Journal 16 3 201–205.
IEEE B. Satılmış, T. Güldür, A. Karakurt, E. Büyüktuncel, and M. Ertan, “Comparison of stereochemical structures of cholesterol from different sources by HPLC”, Marmara Pharm J, vol. 16, no. 3, pp. 201–205, 2014, doi: 10.12991/mpj.78583.
ISNAD Satılmış, Basri et al. “Comparison of Stereochemical Structures of Cholesterol from Different Sources by HPLC”. Marmara Pharmaceutical Journal 16/3 (March 2014), 201-205. https://doi.org/10.12991/mpj.78583.
JAMA Satılmış B, Güldür T, Karakurt A, Büyüktuncel E, Ertan M. Comparison of stereochemical structures of cholesterol from different sources by HPLC. Marmara Pharm J. 2014;16:201–205.
MLA Satılmış, Basri et al. “Comparison of Stereochemical Structures of Cholesterol from Different Sources by HPLC”. Marmara Pharmaceutical Journal, vol. 16, no. 3, 2014, pp. 201-5, doi:10.12991/mpj.78583.
Vancouver Satılmış B, Güldür T, Karakurt A, Büyüktuncel E, Ertan M. Comparison of stereochemical structures of cholesterol from different sources by HPLC. Marmara Pharm J. 2014;16(3):201-5.