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Sinistrin

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Sinistrin

Example chemical structure of sinistrin
Names
Other names
  • Polyfructosan
  • Polyfructosan-S
  • Inulin analogue
  • Inutest
Identifiers
ChemSpider
  • none
DrugBank
UNII
Properties
(C6H10O6)n
Molar mass Variable
Good[1]
Solubility in ethanol Insoluble[2]
Pharmacology
V04CH01 (WHO)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Sinistrin is a naturally occurring sugar polymer or polysaccharide, also known as polyfructosane. It belongs to the fructan group, like inulin. As it is the case with similar substances, such as fructans or inulin, sinistrin acts as an energy storage molecule in plants.

Discovery, history, and manufacture

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In 1879, Schmiedeberg isolated sinistrin from the bulb of the red squill (Urginea maritima).[2][3] He named the substance ’sinistrin’, from the Latin word 'sinister' for left, according to its optical rotation activities. in 1885, Hammarsten found sinistrin in mucins of Helix pomatia.[1] Today sinistrin is industrially manufactured out of the bulb of red squill by various extraction and purification steps.[citation needed] In 2018, the French pharmacovigilance agency withdrew sinistrin-based products from the market after some patients experienced hypersensitivity reactions including a fatal outcome.[4]

Biochemistry

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Sinistrin is an inulin-type β–D-fructan with branches on position 6. It belongs to the group of fructans and is partly counted among the fructooligosaccharides (FOS).[3][5] Sinistrin is composed out of fructose units (97%) and glucose units (3%, approximately), building a chain of fructose molecules with a terminal glucose unit. The degree of polymerisation (dp) of sinistrin is in average at 15, the molecular weight is at 3500 Da with a range from 2000 to 6000 Da.[3][6] The main differences between sinistrin and inulin are the higher alkali-resistance and the better water solubility (even in cold water) of sinistrin compared to inulin.

Uses

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Medical

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Like inulin, the polymer sinistrin is not metabolized in human blood and passes the kidneys unchanged. Both inulin and sinistrin are therefore frequently used for the diagnosis of kidney disorders. An important measure of kidney function is the glomerular filtration rate (GFR). GFR is the volume of fluid filtered from the renal (kidney) glomerular capillaries into the Bowman's capsule per time unit.[7] To measure this parameter, a marker substance is injected into the blood stream, and its rate of excretion in urine is compared to the plasma concentration. Such a marker substance needs to be non-toxic, not endogenous in the circulation, neither reabsorbed nor secreted in the kidney, and measurable. The measurement of the sinistrin-clearance is used to exactly determine the GFR in humans.[8][9] The assays to determine sinistrin in urine or plasma are identical to that used for inulin. However, sinistrin is often preferred to the alternative, inulin, because it is highly soluble in water and easier to handle. For the application as a renal diagnostic an aqueous solution of sinistrin is approved under the trade name „Inutest“.[10]

Notes

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  1. ^ a b M. Geldmacher-Mallinckrodt und F. May: Die Polysaccharide der Weinbergschnecke II. Die Mucin-Polysaccharide der Eiweißdrüse. 1. Mitteil.: Die Identität von Galaktogen und Sinistrin. Hoppe-Seyler's Zeitschrift für physiologische Chemie. Band 307, Heft 1-2, S. 191–201, ISSN (Online) 1437-4315, ISSN (Print) 0018-4888. doi:10.1515/bchm2.1957.307.1-2.191.
  2. ^ a b O. Schmiedeberg (1879). "Ueber ein neues Kohlehydrat". Hoppe-Seyler's Zeitschrift für physiologische Chemie. 3 (1–2): 112–133. doi:10.1515/bchm1.1879.3.1-2.112.
  3. ^ a b c Biopolymers, Polysaccharides II, Wiley-VCH, 2002, ISBN 3-527-30227-1.
  4. ^ Bui TV, Prot-Bertoye C, Ayari H, Baron S, Bertocchio JP, Bureau C, Davis P, Blanchard A, Houillier P, Prie D, Lillo-Le Louet A, Courbebaisse M. Safety of Inulin and Sinistrin: Combining Several Sources for Pharmacovigilance Purposes. Front Pharmacol. 2021 Nov 18;12:725417.doi:10.3389/fphar.2021.725417.
  5. ^ E. Nitsch, W. Iwanov und K. Lederer: Molecular characterization of Sinistrin. Carbohydrate Research 72 (1979) 1-12.
  6. ^ T. Spies, W. Praznik, A. Hofinger, F. Altmann, E. Nitsch, R. Wutka: Carbohydr. Res. 235 (1992) 221–230.
  7. ^ Nosek, Thomas M. "Section 7/7ch04/7ch04p11". Essentials of Human Physiology. Archived from the original on 2016-03-24. - "Glomerular Filtration Rate"
  8. ^ B. Watschinger und I. Kobinger: Wiener Zeitschrift für Innere Medizin 45 (1964) 219-228.
  9. ^ T. Buclin, A. Pechere-Bertschi, R. Sechaud et al.: Sinistrin clearance for determination of glomerular filtration rate: a reappraisal of various approaches using a new analytical method. J Clin Pharmacol 1997;37:679–92. 204–211.
  10. ^ Inutest 25% Ampullen (PDF) bei pharmazie.com, accessed on June 7th 2011.

References

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  • D.P. Mertz und H. Sarre: Polyfructosan-S: Eine neue inulinartige Substanz zur Bestimmung des Glomerulusfiltrates und des physiologisch aktiven extracellulären Flüssigkeitsvolumens beim Menschen. Klin Wochenschrift 1963;41:868-72.