Poonam Mudgil scite author profile

Purpose Tear lipocalin (Tlc) is a major lipid binding protein in tears and is thought to have an important role in stabilizing the Meibomian lipid layer by transferring lipids to it from the aqueous layer or ocular surface, or by adsorbing to it directly. These possible roles have been investigated in vitro using human Tlc. Methods Tlc was purified from human tears by size exclusion chromatography followed by ion exchange chromatography. Three additional samples of the Tlc were prepared by lipidation, delipidation, and relipidation. The lipids extracted from the purified Tlc were analyzed by HPLC-MS followed by fragmentation. Adsorption of these different forms of Tlc to a human Meibomian lipid film spread on the surface of an artificial tear buffer in a Langmuir trough were observed by recording changes in the pressure with time (∏-T profile) and monitoring the appearance of the film microscopically. These results were compared with similar experiments using a bovine Meibomian lipid film. Results The results indicated that Tlc binds slowly to a human Meibomian lipid film compared with lysozyme or lactoferrin, even at 37°C. The adsorption of Tlc to a human Meibomian lipid film was very different from its adsorption to a bovine Meibomian lipid film, indicating the nature of the lipids in the film is critical to the adsorption process. Similarly, the different forms of Tlc had quite distinct adsorption patterns, as indicated both by changes in ∏-T profiles and the microscopic appearance of the films. Conclusions It was concluded that human Tlc was capable of adsorbing to and penetrating into a Meibomian lipid layer, but this process is very complex and depends on both the types of lipids bound to Tlc and the lipid complement comprising the Meibomian lipid film.

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Surfactant Properties of Human Meibomian Lipids

Mudgil

Millar

2011

Invest. Ophthalmol. Vis. Sci.

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Sebum/Meibum Surface Film Interactions and Phase Transitional Differences

Mudgil

Borchman

Gerlach

et al. 2016

Invest. Ophthalmol. Vis. Sci.

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PurposeSebum may contribute to the composition of the tear film lipid layer naturally or as a contaminant artifact from collection. The aims of this study were to determine: if sebum changes the rheology of meibum surface films; if the resonance near 5.2 ppm in the 1H-NMR spectra of sebum is due to squalene (SQ); and if sebum or SQ, a major component of sebum, interacts with human meibum.MethodsHuman meibum was collected from the lid margin with a platinum spatula. Human sebum was collected using lipid absorbent tape. Langmuir trough technology was used to measure the rheology of surface films. Infrared spectroscopy was used to measure lipid conformation and phase transitions. We used 1H-NMR to measure composition and confirm the primary structure of SQ.ResultsThe NMR resonance near 5.2 ppm in the spectra of human sebum was from SQ which composed 28 mole percent of sebum. Both sebum and SQ lowered the lipid order of meibum. Sebum expanded meibum films at lower concentrations and condensed meibum films at higher concentrations. Sebum caused meibum to be more stable at higher pressures (greater maximum surface pressure).ConclusionsPhysiological levels of sebum would be expected to expand or fluidize meibum making it spread better and be more surface active (qualities beneficial for tear film stability). Sebum would also be expected to stabilize the tear film lipid layer, which may allow it to withstand the high shear pressure of a blink.

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Lipid order, saturation and surface property relationships: A study of human meibum saturation

Mudgil¹,

Borchman²,

Yappert³

et al. 2013

Experimental Eye Research

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The Effect of Meibomian Lipids and Tear Proteins on Evaporation Rate under ControlledIn VitroConditions

Herok¹,

Mudgil²,

Millar³

2009

Current Eye Research

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The lipid layer of the tear film is associated with preventing evaporative loss. The ability of human Meibomian lipids to reduce evaporation in vitro was tested. Films of human or animal Meibomian lipids or mixtures of cholesterol and phosphatidylcholine were spread on the surface of either artificial buffer or on whole tears and placed on a mass balance that was enclosed in a sealed chamber. The temperature was adjusted to 37 degrees C and gas flow was controlled. Increasing the amounts of Meibomian lipids gave a very small reduction in evaporation. It was concluded from these in vitro experiments that prevention of evaporation from the tear film is not due to the Meibomian lipids alone, but is more likely to be due to a complex interaction between components of the aqueous and the Meibomian lipids.

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Antimicrobial Role of Human Meibomian Lipids at the Ocular Surface

Mudgil¹

2014

Invest. Ophthalmol. Vis. Sci.

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Poonam Mudgil

The Surface Activity of Purified Ocular Mucin at the Air-Liquid Interface and Interactions With Meibomian Lipids

Adsorption of lysozyme to phospholipid and meibomian lipid monolayer films

Adsorption of Human Tear Lipocalin to Human Meibomian Lipid Films

Surfactant Properties of Human Meibomian Lipids

Sebum/Meibum Surface Film Interactions and Phase Transitional Differences

Lipid order, saturation and surface property relationships: A study of human meibum saturation

The Effect of Meibomian Lipids and Tear Proteins on Evaporation Rate under ControlledIn VitroConditions

Antimicrobial Role of Human Meibomian Lipids at the Ocular Surface

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