Homeostasis and visual acuity of the surface of the eye are dependent on tears, a thin film comprising at least 1800 different extracellular proteins and numerous species of lipids through which 80% of entering light is refracted at the air interface. Loss of homeostasis in dry eye disease affects 5-7% of the world’s population, yet little is known about key molecular players. Our story began as an unbiased screen for regulators of tearing that led to the discovery of homeostasis-restorative ‘lacritin’, a tear protein whose active form is selectively deficient in dry eye. Heparanase acts as a novel ‘on-switch’ for lacritin ligation of syndecan-1 necessary to trigger basal tearing, as well as pertussis toxin-sensitive and FOXO-dependent signaling pathways for healing of inflammation-damaged epithelia and restoring epithelial oxidative phosphorylation by mitochondrial fusion downstream of transiently accelerated autophagy. A phase 2 clinical trial has tested the applicability of this mechanism to the resolution of dry eye disease. Results are not yet available. With lacritin proteoforms detected in cerebral spinal fluid, plasma, and urine, the capacity of the lacritin-syndecan-1-heparanase axis to restore homeostasis might have wide systemic relevance to other organs.

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