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Structure-Activity Relationships of Truncated 1'-Homologated Carbaadenosine Derivatives as New PPARγ/δ Ligands: A Study on Sugar Puckering Affecting Binding to PPARs.

Young Eum HyunSeungchan AnMinjae KimIn Guk ParkSanghee YoonHafiz Muhammad Ahmad JavaidThi Ngoc Lan VuGyudong KimHongseok ChoiHyuk Woo LeeMinsoo NohJoo Young HuhSun ChoiHong-Rae KimLak Shin Jeong
Published in: Journal of medicinal chemistry (2023)
Peroxisome proliferator-activated receptors (PPARs) are associated with the regulation of metabolic homeostasis. Based on a previous report that 1'-homologated 4'-thionucleoside acts as a dual PPARγ/δ modulator, carbocyclic nucleosides 2 - 5 with various sugar conformations were synthesized to determine whether sugar puckering affects binding to PPARs. ( S )-conformer 2 was synthesized using Charette asymmetric cyclopropanation, whereas ( N )-conformer 3 was synthesized using stereoselective Simmons-Smith cyclopropanation. All synthesized nucleosides did not exhibit binding affinity to PPARα but exhibited significant binding affinities to PPARγ/δ. The binding affinity of final nucleosides to PPARγ did not differ significantly based on their conformation, but their affinity to PPARδ depended greatly on their conformation, correlated with adiponectin production. ( N )-conformer 3h was discovered to be the most potent PPARδ antagonist with good adiponectin production, which exhibited the most effective activity in inhibiting the mRNA levels of LPS-induced IL-1β expression in RAW 264.7 macrophages, implicating its anti-inflammatory activity.
Keyphrases
  • insulin resistance
  • lps induced
  • fatty acid
  • metabolic syndrome
  • binding protein
  • inflammatory response
  • poor prognosis
  • adipose tissue
  • skeletal muscle
  • dna binding
  • long non coding rna
  • oxide nanoparticles