Eudysmic ratio

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Eutomer
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The eudysmic ratio (also spelled eudismic ratio) represents the difference in

chiral compound is biologically active, one enantiomer is more active than the other. The eudysmic ratio is the ratio of activity between the two. A eudysmic ratio significantly differing from 1 means that they are statistically different in activity. Eudisimic ratio (ER) reflects the degree of enantioselectivity of the biological systems.[1][2] For example, (S)-propranolol (ER = 130) meaning that (S)-propranolol is 130 times more active than its (R)-enantiomer.[3]

Terminology

The eutomer is the enantiomer having the desired pharmacological activity,[4] e.g., as an active ingredient in a drug.

The distomer, on the other hand, is the enantiomer of the eutomer which may have undesired bioactivity or may be bio-inert.[5]

A racemic mixture is an equal mixture of both enantiomers, which may be easier to manufacture than a single enantiomeric form.

Indacrinone Enantiomers

It is often the case that only a single one of the enantiomers contains all of the wanted bioactivity, the distomer is often less active, has no desired activity or may even be toxic.[6] In some cases, the eudysmic ratio is so high, that it is desired to separate out the two enantiomers instead of leaving it as a racemic product. It is also possible that the distomer is not simply completely inactive but actually antagonizes the effects of the eutomer. There are a few examples of chiral drugs where both the enantiomers contribute, in different ways, to the overall desired effect. An interesting situation is that in which the distomer antagonizes a side-effect of the eutomer for the desired action, mutually beneficial action form therapeutic standpoint.  This is convincingly demonstrated by the diuretic indacrinone.[7] 

The (R)-(+)-isomer, the eutomer, is responsible for the diuretic action and undesired uric acid retention, a side-effect common to many diuretics.  The (S)-(-)-isomer, the distomer, acts as a uricosuric agent and thus antagonizes the side-effect caused by the (R)-isomer.  A superficial examination of these facts might suggest the marketing of this product as a racemate (1:1 mixture of both enantiomers) to be desirable, since both enantiomers are complementing each other, but for optimal action, the ideal eutomer to distomer ratio for indacrinone has been determined to be 9:1.[8] [9][10][11] This is a classical case of a non-racemic drug. Alternatively, it is possible that in the body the distomer converts, at least in part, into the eutomer.

Calculation

One way the eudysmic ratio is computed is by dividing the EC50 or the IC50 of the eutomer by the same measurement of the distomer.[12][13] Whether one chooses to use the EC50 or IC50 depends on the drug in question.

Examples

  • Citalopram: steps were taken to separate the more potent enantiomer, escitalopram.
  • teratogenicity of the (R)-(+)-isomer caused it to become an important case study of stereochemistry in medicine. Although it is possible to chemically isolate just the desired (S)-(−)-isomer from the racemic mixture, the two enantiomers rapidly interconvert in vivo; thus rendering their separation to be of little use.[14]
  • Methorphan is another drug whose two enantiomers possess very different binding profiles, with the L enantiomer being a potent opioid analgesic, and the D enantiomer being a commonly used over-the-counter cough suppressant which acts as an NMDA-antagonist but possesses nearly no opioid activity. In the case of morphinan, the eudysmic ratio is preserved after metabolism as the D and L metabolites possess the same pharmacological targets as the corresponding methorphan enantiomers, but are considerably more potent than their parent compounds.
  • alpha-ketoacids (most of which are non-chiral) and then transaminases can create L amino acids. There are no reasons to believe that humans are exceptional, they have all required enzymes (DDO, DAO). Some common foods contain near-racemic mixtures of amino acids.[citation needed
    ]

See also

References

  1. S2CID 36115871
    .
  2. S2CID 30916093
    .
  3. OCLC 27897833
    .
  4. doi:10.1351/pac199870051129
    .
  5. ISBN 3-8047-1485-4
    .
  6. S2CID 30916093
    .
  7. S2CID 33537650
    .
  8. S2CID 42650689
    .
  9. S2CID 36115871
    .
  10. ISSN 0223-5234
    .
  11. PMID 1958505
    , retrieved 2021-05-15
  12. PMID 647843
    .
  13. S2CID 12768116
    .
  14. PMID 7702998
    .
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