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Nomenclature for polymeric carriers bearing chemical entities with specific activities and names

Published/Copyright: October 12, 2015
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Chemistry International
From the journal Chemistry International Volume 37 Issue 5-6

How to name a complex conjugate and allow easy identifications of the carrier, of the bound specific entity and of the link while respecting the established IUPAC rules as much as possible? This is the problem which this new project intends to solve.

In organic chemistry, the nomenclature allows the unequivocal drawing of the molecule structure. In polymer chemistry, the situation is more complex and one can use either the ‘source-based’ or the ‘structure-based’ systems of nomenclature to name a polymer. Source-based nomenclature leads to rather simple names, but it does not reflect the structure of the polymer it names. Information on the polymerization process is necessary to draw it. In contrast, structure-based nomenclature allows the drawing of the polymer structure directly from the name without requiring knowledge of the chemistry involved in the polymer formation. The strict rules of IUPAC organic nomenclature are adapted to the naming of the constitutional units of a polymer.

Recently, the members of the Subcommittee on Polymer Terminology (SPT) prepared a document for the “Nomenclature of Chemically Modified Polymers” (Pure Appl. Chem. 87(3), pp. 307-319 (2015)). This document revealed the need for a particular nomenclature system to deal with current, common structures of conjugates which combine macromolecular carriers and chemical entities.

The field of polymeric conjugates is rapidly growing. The development of conjugates depends on the collaboration of people from different disciplines and the name of a conjugate can be different depending on who generated it among the various specialists. The applications of conjugates require the permanent or temporary immobilization of complex chemical species chemically bound to a carrier that can be a macromolecule, a micelle, a microparticle, a nanoparticle, or a large solid support. These complex chemical species are easily characterized and identified by functional names. In contrast, recognition and identification can be almost impossible if the strict structure-based naming of the conjugate is used, because both the carrier and the complex species are chemically modified. The binding function alters the names of the bound entity as well as that of the polymeric carrier. Sometime this binding function plays an important role, as in the case of specific chemical entities that are to be released by degradation under predefined physical or chemical conditions. In pharmacology, drugs or other bioactive species like peptides, proteins, polysaccharides, or polynucleotides are temporarily attached to polymeric systems for the purpose of being transported up to a targeted site in the human body and released there to exert their therapeutic action. In some applications, conjugates involve molecules with other specific activities, like dyes or radioactive labels, ligands to target receptors present in cell membranes, solubilizing species, stimuli-sensitive entities to make smart systems, or pesticides and insecticides for treatments in agriculture, etc. Some of the carriers of the bound entities can be so complex that they are named using letters like FGFs and VEGF growth factors, albumin and fibrinogen proteins, DNA, siRNA, etc.

IUPAC recommendations for the structure and source-based nomenclatures of polymers have clear limitations when dealing with complex conjugates. This new project aims to create rules that will allow unambiguous and facile naming of such modern complex conjugates together with easy recognition of the moieties introduced to take advantage of their specific activity.

The project is focused on macromolecules (organic or inorganic) suitable for attachment of (or to) complex chemical entities, including small molecules, macromolecules and biopolymers known and named in relation to their utility. However, the recommendations will be applicable to other kinds of carriers (small organic molecule to make prodrugs, inorganic supports, surface and porous systems, etc.) provided they bear identified chemical functions suitable for attachment.

For further information, contact the Task Group Chair Michel Vert <>

www.iupac.org/project/2014-034-2-400

Online erschienen: 2015-10-12
Erschienen im Druck: 2015-9-1

©2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.1515/ci-2015-0520

Articles in the same Issue

  1. Masthead - Full issue pdf
  2. Contents
  3. Treasurer’s Column
  4. Ringing the Changes—For the Future
  5. Stamps International
  6. Dreams Make Good Stories
  7. Features
  8. Progress of Chemistry in South Korea
  9. Meeting the Google Expectation for Chemical Safety Information
  10. Medicinal Chemistry in IUPAC
  11. Youth Views on Sustainability: Chemical Waste Management at Clinical Laboratories
  12. IUPAC Wire
  13. Thieme–IUPAC Prize 2016 Call for Nominations
  14. 2016 IUPAC-SOLVAY International Award for Young Chemists announced
  15. 2016 IUPAC-ThalesNano Prize in Flow Chemistry—Call for Nominations
  16. CHEMRAWN VII Prize for Green Chemistry—Call for Nominations
  17. Standard Atomic Weight of Ytterbium Revised
  18. De Gruyter to Launch Chemistry Standards Database
  19. Solubility Data Series Books now Available on Web
  20. L’Oréal–UNESCO Awards for Women in Science 2015 Announced
  21. Berhanu Abegaz heads the UNESCO International Basic Sciences Programme (IBSP) scientific board
  22. Christo Balarew receives Presidential Honors
  23. In memoriam: Nikola Kallay (1942-2015)
  24. Project Place
  25. Storing Energy: with special reference to renewable energy sources
  26. Nomenclature for polymeric carriers bearing chemical entities with specific activities and names
  27. Measurement of Photoluminescence Quantum Yields
  28. Young Ambassadors for Chemistry (YAC) achievements in Thailand and Cambodia
  29. Making an ImPACt
  30. Latest Updates from PAC Conferences
  31. Brief guide to the nomenclature of inorganic chemistry
  32. IUPAC Glossary of terms used in neurotoxicology (IUPAC Recommendations 2015)
  33. IUPAC Provisional Recommendations
  34. Source-Based Nomenclature for Single-Strand Homopolymers and Copolymers
  35. Glossary of Terms Used in Extraction
  36. Bookworm
  37. Ionic Polymerization, Part I & II
  38. Polymers and Organic Chemistry
  39. Macromolecular Complexes
  40. Conference Call
  41. POLYCHAR 23 World Forum Advanced Materials
  42. Science Assessments and Research Integrity: Reconcilable or Antagonistic?
  43. Where 2B & Y
  44. Trans Mediterranean Colloquium on Heterocyclic Chemistry
  45. COSPAR 2016
  46. Organic Chemistry of Sulfur
  47. Mark Your Calendar
  48. Index 2015
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