Molecules (Basel, Switzerland)

How Adlay Seed and Its Active Plant Compounds May Reduce Harmful Sugar Damage in Cells

Updated

Abstract

Ethanolic extracts of adlay testa showed a maximum inhibitory percentage of 88% against protein glycation.

  • Adlay seed was divided into four parts: hull, testa, bran, and polished adlay.
  • The extracts from the testa and bran exhibited a greater capacity to inhibit protein glycation compared to other parts.
  • Further fractionation of the testa extract identified subfractions that significantly inhibited glucose-mediated glycation.
  • Two phenolic compounds, chlorogenic acid and ferulic acid, were found to inhibit different stages of protein glycation.
  • The findings indicate a potential role of adlay extracts in addressing hyperglycemia-related protein modifications.

Simplified

Key numbers

88%
Inhibition Percentage of ATE-BuOH Subfraction
Maximum inhibitory percentage observed in BSA-glucose assay.
20%
Inhibition by Chlorogenic Acid
Inhibition percentage in BSA-glucose assay.
28%
Inhibition by Ferulic Acid
Inhibition percentage in BSA-glucose assay.

Full Text

What this is

  • This research evaluates the effects of adlay seed using in vitro assays.
  • Adlay seed parts, particularly the testa and bran, show significant inhibition of protein glycation.
  • Active compounds identified include chlorogenic acid and ferulic acid, which contribute to this inhibition.

Essence

  • Adlay seed, particularly its testa and bran, inhibits protein glycation in vitro, primarily due to chlorogenic acid and ferulic acid.

Key takeaways

  • Adlay testa and bran exhibit greater effects than other seed parts, suggesting they contain effective glycation inhibitors.
  • Chlorogenic acid and ferulic acid, identified in adlay, significantly inhibit glucose-mediated protein modification and crosslinking.
  • The study indicates that adlay could be a potential therapeutic agent for preventing complications related to .

Caveats

  • The study is limited to in vitro assays, which may not fully replicate in vivo conditions.
  • Further research is needed to confirm the clinical relevance of adlay's effects in humans.

Definitions

  • Advanced glycation end products (AGEs): Reactive compounds formed from nonenzymatic glycation between sugars and proteins, linked to diabetic complications.
  • Antiglycation: The process of inhibiting the formation of AGEs, potentially reducing diabetic complications and aging-related diseases.

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