Dipeptidyl peptidase IV (DPPIV) activity in the tear fluid as an indicator of the severity of corneal injury: a histochemical and biochemical study

Comparative histochemical and biochemical studies on the catalytically active protease Dipeptidyl peptidase IV (DPPIV), have been performed in the rabbit cornea and the tear fluid using a sensitive fluorogenic substrate, Gly-Pro-7-amino-4-Trifluoromethyl Coumarine (AFC). In both normal and experimentally injured corneas, DPPIV activity was detected histochemically and in the tear fluid biochemically. In contrast to the normal cornea where DPPIV activity was absent and in the tear fluid where it was low, during continuous wearing of contact lenses or repeated irradiation of the cornea with UVB rays, slight DPPIV activity appeared first in the superficial layers of the corneal epithelium, while later increased activity was present in the whole epithelium. This paralleled elevated DPPIV activity in the tear fluid. Moreover, during continuous contact lens wear, the increased DPPIV activity in the tear fluid was, in many cases, coincidental with the presence of capillaries in the limbal part of the corneal stroma. After severe alkali burns when corneal ulcers appeared, collagen fragments were active for DPPIV, which was associated with high DPPIV activity in the tear fluid. In conclusion, Gly-Pro-AFC was found to be useful for comparative histochemical and biochemical studies on DPPIV activity in the experimentally injured rabbit eye. Using the method of the tear film collection by a short touch of substrate punches to the respective site of the cornea or conjunctiva we can show that in experimental injuries (wearing of contact lenses, irradiation of the cornea with UVB rays), the damaged corneal cells were the main source for DPPIV activity in the tear fluid. It is suggested that the activity of DPPIV measured in the tear fluid might serve as an indicator of early corneal disorders, e.g. corneal vascularization related to contact lens wear.     

Interaction of phospholipid transfer protein with human tear fluid mucins

In addition to circulation, where it transfers phospholipids between lipoprotein particles, phospholipid transfer protein (PLTP) was also identified as a component of normal tear fluid. The purpose of this study was to clarify the secretion route of tear fluid PLTP and elucidate possible interactions between PLTP and other tear fluid proteins. Human lacrimal gland samples were stained with monoclonal antibodies against PLTP. Heparin-Sepharose (H-S) affinity chromatography was used for specific PLTP binding, and coeluted proteins were identified with MALDI-TOF mass spectrometry or Western blot analysis. Immunoprecipitation assay and blotting with specific antibodies helped to identify and characterize PLTP-mucin interaction in tear fluid. Human tear fluid PLTP is secreted from the lacrimal gland. MALDI-TOF analysis of H-S fractions identified several candidate proteins, but protein-protein interaction assays revealed only ocular mucins as PLTP interaction partners. We suggest a dual role for PLTP in human tear fluid: (1) to scavenge lipophilic substances from ocular mucins and (2) to maintain the stability of the anterior tear lipid film. PLTP may also play a role in the development of ocular surface disease.     

Identification of hemopexin in tear film

Human tear fluid is a complex mixture of aqueous lipids, proteins, enzymes, and other biochemical and cellular elements. By conventional comparative proteomic approaches, we investigated the proteome in human tear fluid and compared the tear protein profile of normal control subjects with that of patients suffering from the ocular inflammatory disease vernal keratoconjunctivitis (VKC). Collected tear samples were directed to two-dimensional polyacrylamide gel electrophoresis protein separation and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry peptide identification. Six differentially expressed proteins—interleukin 4, phospholipase A2, albumin, lactoferrin, hemopexin, and lipocalin—were displayed. Hemopexin had not been reported previously in tear film. Enzyme-linked immunosorbent assay confirmed that hemopexin concentrations were significantly higher in VKC tear samples and increased with disease stages. The results implied clinical interest of hemopexin in the tear proteome and eye diseases.     

Activity of the gamma-glutamyltransferase, leucine aminopeptidase and alkaline phosphatase enzymes in human tear fluid

In this work the presence of gamma-glutamyltransferase (GGT), leucine amino-peptidase (LAP) and alkaline phosphatase (AP) is shown in human tear fluid. We studied these levels according to sex, age and some eye refraction defects. The differences between the levels for both sexes are not significant. LAP and AP do not show any differences in either age groups or individuals with some refraction defects. The average level of GGT is higher from 40 years of age upwards (p less than 0.005). In individuals with refraction defects, the enzymatic activity is significantly higher (p less than 0.05) than the activities found in normal subjects. The levels of the three enzymes in serum and tear fluid do not show a significant correlation nor are they significantly modified after the samples have been frozen for a month at -20 degrees C.     

Erythropoietin level in tear and blood plasma of people with myopia including those who wear soft contact lens

Erythropoietin level was evaluated in tear film and blood plasma of 63 people with emmetropia (30 people) and myopia (33 people). 17 myopic volunteers wear soft contact lens. There were no statistically significant differences between erythropoietin level in tear samples of emmetropic people, myopic people, and people who wear soft contact lens. Physiological level of erythropoietin in tear of myopic volunteers wearing soft contact lens was established.     

Characterization of human tear proteome using multiple proteomic analysis techniques

Tear proteome profiling may generate useful information for the understanding of the interaction between an eye and its contacting objects, such as a contact lens or a lens implant. This is important for designing improved eye-care devices and maintaining the health of an eye. Proteome profiles of tear fluids may also be used for disease diagnosis and prognosis. However, only a small volume of tear fluid (<5 microL) can be collected in a clinical laboratory under normal operational conditions, which makes proteome profiling a challenge. In this work we apply several proteomic analysis techniques, including gel-based and solution-based approaches with LC-ESI and LC-MALDI MS and MS/MS to gauge the relative merits of producing proteome profiles and to generate as broad a coverage of the tear proteome as possible from this small amount of sample. It is shown that a total of 54 proteins can be confidently identified using less than 5 microL of tear fluid. Of these, 44 proteins can be detected by LC-MALDI MS alone with a consumption of 2 microL of tear fluid. Furthermore, LC-MALDI can be used to determine post-translational modifications (PTMs), such as glycosylation and phosphorylation, without any sample enrichment or treatment. This work represents one of the most extensive proteome profiles (i.e., proteins identified and PTMs characterized) generated from tear fluids using clinically relevant amounts of sample.     

Species differences in tears; Comparative investigation in the chimpanzee (Pan troglodytes)

This paper describes evolutionary divergence in composition of tear fluid among some mammals, and discusses the implications of these differences with regard to the choice of appropriate animals for use as models in ophthalmic research. For the first time a comprehensive investigation of tear fluid in the chimpanzee (Pan troglodytes) is presented in which tear fluid was collected during narcosis of eight chimpanzees. Total protein in chimpanzee tear fluid (8.8±0.3 g/l) is not significantly different from total protein of human tear fluid (10.0±0.6 g/l). The values in tear fluid for lysozyme (6.2±1.5 mg Hen Egg Lysozyme, HEL/ml), peroxidase (115±18 U/ml), and amylase (3.5±0.4 U/ml) in chimpanzees were significantly different from those of human lysozyme (11.8±1.6 mg HEL/ml), peroxidase (70±5 U/ml), and amylase (1.0±0.2 U/ml). Polyacrylamide gelelectrophoresis of tear fluid of the chimpanzees shows in comparison with human tear fluid an additional low-molecular protein (<14 kiloDalton).     

Phospholipid transfer protein is present in human tear fluid

The human tear fluid film consists of a superficial lipid layer, an aqueous middle layer, and a hydrated mucin layer located next to the corneal epithelium. The superficial lipid layer protects the eye from drying and is composed of polar and neutral lipids provided by the meibomian glands. Excess accumulation of lipids in the tear film may lead to drying of the corneal epithelium. In the circulation, phospholipid transfer protein (PLTP) and cholesteryl ester transfer protein (CETP) mediate lipid transfers. To gain insight into the formation of tear film, we investigated whether PLTP and CETP are present in human tear fluid. Tear fluid samples were collected with microcapillaries. The presence of PLTP and CETP was studied in tear fluid by Western blotting, and the PLTP concentration was determined by ELISA. The activities of the enzymes were determined by specific lipid transfer assays. Size-exclusion and heparin-affinity chromatography assessed the molecular form of PLTP. PLTP is present in tear fluid, whereas CETP is not. Quantitative assessment of PLTP by ELISA indicated that the PLTP concentration in tear fluid, 10.9 +/- 2.4 microg/mL, is about 2-fold higher than that in human plasma. PLTP-facilitated phospholipid transfer activity in tears, 15.1 +/- 1.8 micromol mL(-)(1) h(-)(1), was also significantly higher than that measured in plasma. Inactivation of PLTP by heat treatment (+58 degrees C, 60 min) or immunoinhibition abolished the phospholipid transfer activity in tear fluid. Size-exclusion chromatography of tear fluid indicated that PLTP eluted in a position corresponding to a size of 160-170 kDa. Tear fluid PLTP was quantitatively bound to Heparin-Sepharose and could be eluted as a single peak by 0.5 M NaCl. These data indicate that human tear fluid contains catalytically active PLTP protein, which resembles the active form of PLTP present in plasma. The results suggest that PLTP may play a role in the formation of the tear film by supporting phospholipid transfer.     

A Marker of Early Stages of Diabetic Retinopathy

A comparative estimate of the hormonal status and coagulatory activity was carried out in patients with diabetes mellitus at the functional and subclinical stages of diabetic retinopathy and in those without signs of diabetic retinopathy. In all patients, the blood level of hormones was elevated, while in patients with functional and subclinical stages of diabetic retinopathy, the changes in hormonal status were accompanied by increased local and systemic potentials, disturbed microcirculation, and decreased functional activity of the retina outer layers. The increased hormone level affected the hemostatic potentials and induced their elevation at a certain stage. The reliably increased local hemostatic potential was one of the first signs of pathological action of the increased hormone level, while the increase of systemic hemostatic potential was unreliable. The combination of elevated blood level of hormones and coagulatory activity of the tear fluid is a marker fore revealing the group of risk for development of diabetic retinopathy in patients with diabetes mellitus.     

Molecular organization of the tear fluid lipid layer

The tear fluid protects the corneal epithelium from drying out as well as from invasion by pathogens. It also provides cell nutrients. Similarly to lung surfactant, it is composed of an aqueous phase covered by a lipid layer. Here we describe the molecular organization of the anterior lipid layer of the tear film. Artificial tear fluid lipid layers (ATFLLs) composed of egg yolk phosphatidylcholine (60 mol %), free fatty acids (20 mol %), cholesteryl oleate (10 mol %), and triglycerides (10 mol %) were deposited on the air-water interface and their physico-chemical behavior was compared to egg-yolk phosphatidylcholine monolayers by using Langmuir-film balance techniques, x-ray diffraction, and imaging techniques as well as in silico molecular level simulations. At low surface pressures, ATFLLs were organized at the air-water interface as heterogeneous monomolecular films. Upon compression the ATFLLs collapsed toward the air phase and formed hemispherelike lipid aggregates. This transition was reversible upon relaxation. These results were confirmed by molecular-level simulations of ATFLL, which further provided molecular-scale insight into the molecular distributions inside and dynamics of the tear film. Similar type of behavior is observed in lung surfactant but the folding takes place toward the aqueous phase. The results provide novel information of the function of lipids in the tear fluid.     

Dynamics of tear fluid desiccation on a glass surface: a contribution to tear quality assessment

Background

Fern-like crystalloids form when a microvolume of tear is allowed to dry out at ambient conditions on a glass surface. Presence of crystalloids in tear “microdesiccates” is used to evaluate patients with Dry-Eye disease. This study aims to examine morphologically the desiccation process of normal tear fluid and to identify changes associated with accelerated tear evaporation. Tear microdesiccates from healthy (Non-Dry Eye) and Dry Eye subjects were produced at ambient conditions. Microdesiccate formation was monitored continuously by dark-field video microscopy. Additionally, accelerated desiccation of tear samples from healthy subjects was conducted under controlled experimental conditions. Particular morphological domains of tear microdesiccates and their progressive appearance during desiccation were compared.

Results

In normal tear microdesiccates, four distinctive morphological domains (zones I, II, III and transition band) were recognized. Stepwise formation of those domains is now described. Experimentally accelerated desiccation resulted in marked changes in some of those zones, particularly involving either disappearance or size reduction of fern-like crystalloids of zones II and III. Tear microdesiccates from Dry Eye subjects may also display those differences and be the expression of a more synchronous formation of microdesiccate domains.

Conclusion

Morphological characteristics of tear microdesiccates can provide insights into the relative rate of tear evaporation.     

Analysis of human tear fluid by Fourier transform infrared spectroscopy

The purpose of this research is to find some useful spectroscopic factors in human tear fluid contents to monitor diurnal changes of the physicochemical ocular conditions noninvasively. All tear fluid samples were collected with glass microcapillary tubes from both eyes of three donors and analyzed by Fourier transform infrared spectroscopy with attenuated total reflectance (FTIR-ATR). We measured the peak intensities at 2852, 1735, 1546, and 1242 cm(-1), and the peak intensity ratios among those peaks in the second derivative spectra. We found significant diurnal and individual variations in those peak intensities for tear fluid obtained from right and left eyes. Among these variations, we observed significant changes in tear samples between right and left eyes. In this case the peak intensity ratio between 1242 (phosphate ester) and 2852 cm(-1) (fatty acid methylene) of right eye tear fluid was increased in the afternoon (1600 to 1900 h), while that of left eye tear fluid did not change significantly. In the ratio between 1242 (phosphate ester) and 1546 cm(-1) (amide II), the difference was not observed between both eyes. We conclude that the difference in diurnal variations of biochemical constituents between right and left eye tear fluids could be monitored noninvasively and nondestructively by FTIR technique and this method could be useful in the future for tear diagnoses.     

Greater Amount of HCV-RNA in Tears Compared to Blood

Plasma, tear fluid and swabs from eye, nose and pharynx of 33 patients were examined for presence of hepatitis C virus (HCV) RNA by polymerase chain reaction (PCR). All samples from plasma, tear fluid and eyeswabs were found to show a positive reaction in HCV-RNA PCR. Remarkably, we regularly found greater amounts of amplification products in tear fluid and eyeswabs compared to plasma using the same conditions for sample preparation.     

Glycomics analyses of tear fluid for the diagnostic detection of ocular rosacea

A Glycomics approach to detect disease is illustrated in the analyses of human tear fluid for rosacea. The diagnosis of ocular rosacea is particularly challenging in a subgroup of patients that do not present with typical facial skin findings but have ocular signs and symptoms. Indeed, up to 90% of patients with ocular rosacea may have neither obvious roseatic skin changes nor a previous diagnosis of rosacea. Tear fluid was collected from 37 subjects (21 controls and 16 patients with ocular rosacea) after conjunctival stimulation with filter (Schirmer) paper. O-linked oligosaccharides were released from tear fluid by beta-elimination and then purified using solid-phase extraction. Mass spectra were recorded on an external source HiResMALDI with a 7.0 T magnet. Mass spectra were obtained in both the positive and negative modes. However, signals were stronger in the negative mode. Tear fluid samples from rosacea patients yielded distinctive clusters of peaks that extend to higher masses. Patients with rosacea presented several oligomeric series that were not found in the controls. To discriminate the ocular rosacea cases from the normal controls, the sum of absolute intensities of 13 series corresponding to nearly 50 identified mass spectrum peaks was used. Thirty-six out of the 37 samples were correctly classified. This yields a sensitivity of 100% (95% CI 79.5-100) and specificity of 95.2% (95% CI 76.2-99.9). The high abundance of oligosaccharides in the tear fluid of patients with rosacea may lead to an objective diagnostic marker for the disease.     

Peptidomic analysis of human reflex tear fluid

Tear fluid is a complex mixture of biological compounds, including carbohydrates, lipids, electrolytes, proteins, and peptides. Despite the physiological importance of tear fluid, little is known about the identity of its endogenous peptides. In this study, we analyzed and identified naturally occurring peptide molecules in human reflex tear fluid by means of LC-MALDI-TOF–TOF. Tandem MS analyses revealed 30 peptides, most of which have not been identified before. Twenty-six peptides are derived from the proline-rich protein 4 and 4 peptides are derived from the polymeric immunoglobulin receptor. Based on their structural characteristics, we suggest that the identified tear fluid peptides contribute to the protective environment of the ocular surface.     

Assessment of thermal dehydration using the human eye: What is the potential?

Human hydration assessment is a key component for the prevention and proper treatment of heat-related fluid and electrolyte imbalances within military, sports and clinical medicine communities. Despite the availability of many different methods for assessing hydration status, the need for a valid method or technology that is simple, rapid, non-invasive, universal (detects both hypertonic and isotonic hypovolaemia) and is applicable for static (single point in time) and dynamic (change across time) hydration assessment is widely acknowledged. The eye is one candidate body region that might afford such a measure given the intricate balance between ocular dynamics (tear and aqueous humor formation) and blood (plasma osmolality and volume), which is considered the criterion measure for hydration assessment. The aim of this review is to introduce and discuss the potential for using ocular measurements for non-invasive hydration assessment, including tear fluid osmolarity (Tosm), non-invasive tear break-up time (NITBUT) and intraocular pressure (IOP). There is a relevant physiological basis for testing the merit of ocular measures for human hydration assessment and recent data indicate that Tosm and IOP may have utility. Further investigations are warranted to determine the degree to which ocular measures can act as accurate and reliable non-invasive hydration status markers.     

Increased Nervous System-Specific Enolases in Rat Plasma and Cerebrospinal Fluid in Bilirubin Encephalopathy Detected by an Enzyme Immunoassay

Abstract: Three forms of enolase isozymes (αα, αγ, and γγ), including nervous system-specific forms, were measured in the cerebrospinal fluid and the blood plasma of jaundiced or nonjaundiced infant rats by means of enzyme immunoassay systems capable of detecting each form of enolase at the 1 amol (10⁻¹⁸ mol) level. Average enolase levels in cerebrospinal fluid in normal rat were 2.0, 0.2 and 0.1 pmol/ml for αα, αγ, and γγ forms, respectively. Levels of αγ and γγ forms (nervous system-specific enolases; NSE) in jaundiced rats, which suffer Purkinje cell degeneration due to the inborn hyperbilirubinemia, were three to four times as high as the normal values. When kernicterus was induced in jaundiced rats by an injection of bucolome, the NSE level in cerebrospinal fluid was elevated up to more than 30-fold the control, together with a significantly higher level of αγ form in blood plasma. These results suggest that assays of NSE in the cerebrospinal fluid or the blood plasma are helpful in detecting neuronal damage in the central nervous system.     

Liposomes and tear fluid. I. Release of vesicle-entrapped carboxyfluorescein

The successful application of liposomes as a topical ophthalmic drug delivery device requires knowledge of vesicle stability in the presence of tear fluid. The release of 5-carboxyfluorescein from large unilamellar liposomes in the presence of rabbit tear fluid was studied in vitro as a function of bilayer cholesterol content. Reverse evaporation vesicles were prepared from egg phosphatidylcholine, stearylamine and varying amounts of cholesterol. Both the rate and the extent of fluorescent dye release were significantly increased in the presence of rabbit tear fluid at all cholesterol levels. However, by incorporating increasing amounts of cholesterol in the vesicle bilayers, tear-induced leakage was reduced. The release kinetics reported in this study are similar to those observed in the presence of human serum. While serum-induced leakage is attributed to high-density lipoprotein-mediated destabilization, reported differences in tear protein composition suggest some other, as yet unidentified, factor.     

Identification of 491 proteins in the tear fluid proteome reveals a large number of proteases and protease inhibitors

Background  

The tear film is a thin layer of fluid that covers the ocular surface and is involved in lubrication and protection of the eye. Little is known about the protein composition of tear fluid but its deregulation is associated with disease states, such as diabetic dry eyes. This makes this body fluid an interesting candidate for in-depth proteomic analysis.     

Pathogenesis of the "sentinel headache" preceding berry aneurysm rupture.

Pathologic examination in a case of fatal intracerebral hemorrhage from a berry aneurysm showed that the "sentinel" or warning headache in this patient was due to the leakage of blood into the subarachnoid space through a previous small tear in the wall of her saccular aneurysm. Oribital pain, transient, dysphasia, dizziness and, later, meningismus might have prompted the performing of a lumbar puncture to determine the presence of blood in the cerebrospinal fluid. This type of event is the likely pathogenetic mechanism for the premonitory headache that may precede a lethal rupture of a saccular aneurysm.