Glycolic AcidvsHydroquinone

Glycolic acid disrupts ionic bonds between corneocytes (dead skin cells) in the stratum corneum by chelating calcium ions and lowering the calcium concentration at desmosomal junctions. This weakens corneodesmosome integrity and activates endogenous proteases (kallikrein 5 and 7), accelerating desquamation. At higher concentrations, glycolic acid penetrates the viable epidermis and dermis, where it stimulates keratinocyte differentiation and upregulates transforming growth factor-beta (TGF-β) signaling in fibroblasts. This promotes glycosaminoglycan (GAG) synthesis, type I and III collagen production via procollagen gene expression, and elastin remodeling. Its small molecular size (76 Da) and high water solubility give it the deepest penetration of any AHA. The exfoliation also improves barrier function over time by promoting proper corneocyte maturation and reducing stratum corneum compaction.

Hydroquinone inhibits tyrosinase through multiple mechanisms: competitive alternative substrate, oxidation to semiquinone radicals generating ROS that damage melanocyte mitochondria and ER, copper chelation at tyrosinase active site. Inhibits RNA/DNA synthesis via ribonucleotide reductase interference. Causes melanosome degradation through membrane disruption. Dramatic melanin reduction — eumelanin and pheomelanin pathways suppressed. Selectively affects hyperactive melanocytes, sparing quiescent ones. Fades pigmentation without permanently altering baseline skin color. Pigmentation returns when treatment stops (melanocyte stem cells intact). Enhanced with retinoids (penetration) and sunscreen (prevents UV rebound).