Long noncoding RNA ILF3-AS1 regulates myocardial infarction via the miR-212-3p/SIRT1 axis and PI3K/Akt signaling pathway.

OBJECTIVE: Myocardial infarction (MI) is a serious cardiac disease due to its high incidence and mortality worldwide. Long noncoding RNAs (lncRNAs) have been found to play an essential role in the pathological progress of various cardiovascular diseases. ILF3-AS1 is a newly identified lncRNA, and many studies have demonstrated that ILF3-AS1 affects the development of various malignancies. However, the biological function of ILF3-AS1 and its underlying mechanism in MI are still unknown. In the present study, the function of ILF3-AS1 and the possible mechanisms against hypoxia-induced apoptosis in H9c2 cells were investigated. MATERIALS AND METHODS: H9c2 cells were exposed to hypoxia (1% O2) to mimic the in vitro model of MI. The levels of lncRNA ILF3-AS1 and microRNA miR-212-3p were measured by real-time PCR (RT-PCR). Transfection was performed to upregulate the levels of ILF3-AS1 and miR-212-3p. Western blot assays were carried out to measure protein expression. The relationship between ILF3-AS1 and miR-212-3p was verified by Dual-Luciferase reporter assay. RESULTS: We found that ILF3-AS1 was downregulated by hypoxia. Overexpression of ILF3-AS1 resulted in the relief of hypoxia-induced damage to H9c2 cells by rescuing cell viability, migration, and invasion and suppressing apoptosis, while downregulation of ILF3-AS1 had the opposite effects. Moreover, ILF3-AS1 could negatively regulate miR-212-3p expression, and upregulation of ILF3-AS1 could alleviate hypoxic injury via downregulation of miR-212-3p. Moreover, miR-212-3p negatively regulated SIRT1 expression. Further investigations revealed that ILF3-AS1 activated PI3K/Akt signaling and that application of the PI3K inhibitor LY294002 could abrogate the protective effects of ILF3-AS1 against hypoxia. CONCLUSIONS: In summary, we concluded that ILF3-AS1 provides protection against hypoxia-induced injury via the PI3K/Akt pathway, which may provide clues for the treatment of patients with MI.

Effect of OPCML gene on the biological behavior of gastric cancer cell line AGS.

The objective of this investigation was to explore the association of OPCML with gastric cancer and its clinical significance. The expression of OPCML was detected by immunohistochemistry in 118 cases of gastric carcinoma. The OPCML expression in the normal tissues and 7 kinds of gastric cells was assessed by RT-PCR. The recombinant plasmid pcDNA3.1-OPCML was constructed and transfected into AGS cells. CCK8 and colony formation assay were employed to analyze the effect of OPCML on AGS. Immunohistochemistry results showed that the expression of OPCML in gastric cancer was 68.6% and the expression of OPCML was negatively correlated with the depth of tumor invasion and tumor differentiation degree (P < 005); OPCML expression, depth of tumor invasion, lymph node metastasis and distant metastasis were important factors affecting the prognosis of the survival of the patients (P <0.05). OPCML m-RNA expression in the gastric cancer cells was significantly lower than that in the normal gastric mucosa. RT-PCR showed that the expression of OPCML was aberrantly increased in the cells transfected with pcDNA3.1-OPCML. CCK8 and colony formation assay showed that OPCML significantly inhibited the growth, proliferation, and colony formation of the AGS cells. OPCML plays an important role in gastric cancer, and may be a new prognostic indicator of gastric cancer.

Epitope variability of Bcl-2 immunolocalization in the human corneal epithelium.

PURPOSE: To further study the immunological localization of Bcl-2 protein in human corneal epithelium. METHODS: Three anti-human Bcl-2 antibodies, generated against amino acid residues (aa) 4-21 (polyclonal), 1-205 (monoclonal), and 41-54 (monoclonal), were used to localize Bcl-2 protein immunocytochemically in fresh eye bank donor human corneas. RESULTS: In the central corneal epithelium, two anti-Bcl-2 antibodies (aa 4-21 and aa 1-205) showed intense cytoplasmic staining of basal epithelial cells. These antibodies produced similar staining in the limbal epithelium, with gradually less intense staining of wing and superficial cells. By contrast, as previously reported, a monoclonal antibody to aa 41-54 stained nuclei of all epithelial cell layers with the exception of some surface corneal epithelial cells; this antibody also demonstrated very bright anti-Bcl-2 staining of Langerhans cells localized in the peripheral corneal epithelium. CONCLUSION: In our previous study, Bcl-2 protein was immunocytochemically localized to the nuclear compartment of all corneal epithelial cell layers with the use of antibodies specific for the regulatory flexible loop domain of Bcl-2. However, Bcl-2 can also be uniquely localized to the cytoplasm of the corneal epithelium with the use of antibodies generated against aa 4-21 and aa 1-205. Taken together, these results using epitope specific antibodies indicate that different epitopes on the Bcl-2 protein are available for antibody binding within different cells and cellular compartments, suggesting that proliferation and differentiation may lead to changes in the Bcl-2 structure and conformation within different compartments of the epithelial cells themselves.

Proliferation rate of rabbit corneal epithelium during overnight rigid contact lens wear.

PURPOSE: To examine cell proliferation of the normal corneal epithelium and during extended rigid gas-permeable (RGP) lens wear. METHODS: Twenty-three New Zealand White rabbits were fitted unilaterally with either a low oxygen transmissible (Dk/t) or hyper-Dk/t RGP lens, with the other eye serving as a control. The rabbits were injected with 5-bromo-2-deoxyuridine (BrdU) 24-hours later and killed at three time points: 1, 3, and 7 days after injection. Corneas were processed for immunocytochemistry, and sequential digital images were taken from the superior limbus to the central epithelium with an epifluorescence microscope. The total number of BrdU-labeled cell pairs was quantified. RESULTS: The limbus in normal corneas was significantly less populated with BrdU-labeled cells than the central and peripheral epithelium (P < 0.05). The peripheral epithelium adjacent to the limbus was marked by a peak of labeled cells (P < 0.05). Both types of RGP lenses produced an increase in BrdU labeling in the limbus and a dramatic decrease in the central epithelium (80% for low Dk/t, 37% for hyper Dk/t). At day 3 and 7 after BrdU injection, the low-Dk/t lens continued to show decreased BrdU labeling centrally, whereas the limbus remained increased. Hyper-Dk/t lens wear however, showed persistent limbal elevation but equivalent numbers of BrdU-labeled cells centrally at days 3 and 7, compared with control corneas. Keratocytes unexpectedly showed BrdU labeling during RGP lens wear. CONCLUSIONS: Limbus, peripheral, and central epithelium were characterized by different proliferation rates in the normal rabbit cornea. RGP lens wear significantly altered the homeostatic proliferation pattern of the epithelium with the low-Dk/t lens having the most dramatic effect. RGP contact lens wear appears to stimulate proliferation of keratocytes.

Effects of low and hyper Dk rigid gas permeable contact lenses on Bcl-2 expression and apoptosis in the rabbit corneal epithelium.

PURPOSE: To study Bcl-2 expression and apoptotic cell shedding of the rabbit corneal epithelium during extended wear of low and hyper Dk rigid gas permeable (RGP) contact lenses. METHODS: Rabbits were fit with either a low or a hyper Dk RGP lens (Dk/Ltotal= 10 and 97). The rabbits wore the lenses for either 24 hours, 3 days, or 1 week at which point they were humanely sacrificed. Immunocytochemistry and western blot analyses were performed to detect Bcl-2 in the corneal epithelium; TUNEL assay (TdT-mediated dUTP nick-end labeling) was used to identify apoptotic epithelial cells. RESULTS: 1) Immunocytochemistry: In the normal cornea, antibodies to Bcl-2 uniformly stained nuclei of all epithelial cell layers. Occasional surface epithelial cells, however, showed no anti-Bcl-2 nuclear staining; concomitant TUNEL assay revealed that all TUNEL-labeled-surface cells were Bcl-2 negative. By contrast, RGP contact lens wear, regardless of test lens oxygen transmissibility or lens wearing interval, significantly decreased both the total number of Bcl-2 negative and TUNEL-labeled cells on the epithelial surface (P < 0.05). In addition, contact lens wear was associated with labeling of keratocytes with TUNEL assay in the anterior stroma. 2) Western blot analysis: Total epithelial layer Bcl-2 expression was markedly decreased in the low Dk lens test group but was similar to control values in the hyper Dk lens test group. CONCLUSION: Bcl-2 protein seems to play an important role in the regulation of apoptotic cell shedding in the normal rabbit corneal epithelium. The identical staining pattern was seen in previous studies of the normal human cornea. RGP contact lens wear, however, appears to block the changes in Bcl-2 protein prior to apoptotic surface cell shedding, suggesting a lens-related anti-apoptotic effect. Taken together, these findings may explain why contact lens wear reduces surface cell exfoliation as previously reported in human studies.

Bcl-2 expression in the human cornea.

The purpose of this study was to determine the localization of Bcl-2 protein in the human cornea. Anti-human Bcl-2 monoclonal antibodies (MAbs) against selective Bcl-2 peptide sequences were used to localize Bcl-2 protein immunocytochemically in fresh eye bank donor human corneas (n = 4). Specificity of each MAb was determined by Western blot analysis of pooled protein extracted from human corneal epithelium (n = 3). Expression of Bcl-2 protein in apoptotic surface epithelial cells was detected by co-labeling with TUNEL assay and anti-Bcl-2 antibody staining. Two MAbs specific for amino acids residues (aa) 41-54 within the loop domain of Bcl-2 protein stained nuclei of all corneal epithelial cell layers. MAb specific for aa 61-76, also within the loop domain, produced faint nuclei and nuclear envelope staining. Occasional corneal surface epithelial cells however, consistently lacked anti-Bcl-2 nuclear staining with these three MAbs; concomitant TUNEL assay revealed that all TUNEL positive-surface cells were Bcl-2 negative. In the stroma, keratocytes showed similar but weak anti-Bcl-2 staining. All corneal endothelial cells showed intense nuclear staining with MAbs, with no gradient or absence of staining. In summary, Bcl-2 protein can be localized to the nuclei and nuclear envelope of corneal epithelial cells, keratocytes and endothelial cells with the use of MAbs specific for the loop domain of Bcl-2. TUNEL-labeled surface epithelial cells did not stain with MAbs to Bcl-2, suggesting degradation or epitope masking perhaps by specific phosphorylation of the loop domain during apoptosis. Taken together, these findings suggest that Bcl-2 protein may play a critical role in modulating apoptotic cell desquamation in the human corneal epithelium.

Effects of rigid and soft contact lens daily wear on corneal epithelium, tear lactate dehydrogenase, and bacterial binding to exfoliated epithelial cells.

OBJECTIVE: To determine the effects of lens type and oxygen transmissibility on human corneal epithelium during daily lens wear (DW). DESIGN: Prospective, randomized, double-masked, single-center, parallel treatment groups clinical trial. PARTICIPANTS: Two hundred forty-six patients fitted with: (1) high oxygen-transmissible soft lenses (n = 36), (2) hyper oxygen-transmissible soft lenses (n = 135), and (3) hyper oxygen-transmissible rigid gas-permeable (RGP) lenses (n = 75). INTERVENTION: Irrigation chamber to collect exfoliated epithelial surface cells, confocal microscopy, and tear collection at baseline, 2 weeks, and 4 weeks of DW. MAIN OUTCOME MEASURES: (1) Pseudomonas aeruginosa (PA) binding to exfoliated corneal epithelial surface cells, (2) central epithelial thickness, (3) superficial epithelial cell area, (4) epithelial surface cell exfoliation, and (5) tear lactate dehydrogenase (LDH). RESULTS: Four weeks of DW with the high oxygen-transmissible soft lens significantly increased PA binding from baseline 6.55 +/- 3.01 to 8.75 +/- 3.05 bacteria per epithelial cell (P < 0.01). By contrast, hyper oxygen-transmissible soft lens wear increased binding significantly less (6.13 +/- 2.45 to 7.62 +/- 3.06; P < 0.01), whereas hyper oxygen-transmissible RGP lens wear demonstrated no significant changes (5.91 +/- 2.40 to 6.13 +/- 2.17; P = 0.533). No significant change in central epithelial thickness was found after 4 weeks of DW in either soft lens; however, the epithelial thickness decreased by 9.8% (P < 0.001) with RGP lens wear. Epithelial cell surface area increased 3.3% and 4.1% with the high and hyper oxygen-transmissible soft lenses, respectively, and 10.5% with the hyper oxygen-transmissible RGP lens (P < 0.001). Epithelial desquamation significantly decreased in all groups (P < 0.001). Tear LDH levels increased for all test lenses (P < 0.001). CONCLUSIONS: Increased PA binding induced by wear of a conventional soft lens material is significantly greater than that induced by the new hyper oxygen-transmissible soft silicone hydrogel lens during DW. However, both soft materials showed significant increases in PA binding as compared with baseline controls. By contrast, hyper oxygen-transmissible RGP lens DW did not increase PA binding significantly. Taken together, these findings suggest for the first time both an oxygen effect as well as a difference between soft and rigid lens types on PA binding in DW.

Effects of RGP lens extended wear on glucose-lactate metabolism and stromal swelling in the rabbit cornea.

PURPOSE: To assess the chronic effects of rigid gas-permeable (RGP) contact lenses on corneal swelling and glucose-lactate metabolism in the rabbit cornea during 1 month of continuous extended wear and to establish the relationship between these effects and the oxygen transmissibility (Dk/L) of the test lens polymer. METHODS: Four RGP lenses of varying Dk/L were tested in 8 rabbits per test group (left eyes served as controls). After 7 days and 1 month extended wear, the concentrations of lactate and glucose in the corneal epithelium, stroma and aqueous humor were determined by enzyme assay; and epithelial and stromal ATP concentrations were separately measured by bioluminescence techniques. Corneal thickness was measured at a standard morning time by ultrasonic pachymetry before and after 1, 7, 15 days and 1 month extended wear. RESULTS: After 7 days and 1 month extended wear, generalized decreases were found in aqueous humor lactate levels for all test lenses, while concomitant increased aqueous glucose concentrations were observed. Total epithelial lactate levels correlated inversely with decreasing Dk/L levels for lower oxygen transmissible lenses (R = 0.951, P = 0.0051); and remained unchanged after extended wear of the hyper-oxygen transmissible Dk/L 125 test lens. By contrast, stromal lactate levels consistently decreased at all time points measured forextended wear of all test lenses. As expected, both epithelial and stromal ATP concentrations simultaneously decreased in extended wear. Overnight corneal swelling values after 24 hours wear of Dk/L = 27, 43, 70 and 125 test lenses were increased by 9.8, 7.1, 5.5, and 5.2% while persistent (residual) stromal swelling after one month extended wear was 16.8, 10.1, 8.6, and 5.6% respectively, in excess of baseline values. CONCLUSIONS: Chronic RGP contact-lens induced hypoxia is associated with altered glucose-lactate metabolism in the cornea and aqueous humor with excess production of increased levels of lactate in the epithelium for lower Dk/L test lenses, but decreased lactate concentration in the stroma and aqueous humor. Extended wear of the hyper-oxygen transmissible test lens (Dk/L = 125) however, produced no increase in epithelial lactate levels. Expected lens-induced decreases in epithelial and stromal ATP were not dependent on lens-oxygen transmissibility. Despite the persistence of lower than normal stromal levels of lactate during 1 month of extended wear for all test lenses, residual corneal swelling values remained consistently elevated above baseline values. Taken together, these data establish that increased stromal lactate accumulation cannot account for persistent stromal edema in chronic extended wear of RGP lenses; and that this effect appears to be independent of lens-oxygen transmissibility and may thus represent the prolonged mechanical effect of lens wear itself.

The effect of rigid gas permeable contact lens wear on proliferation of rabbit corneal and conjunctival epithelial cells.

PURPOSE: To study the effect of rigid contact lens oxygen transmissibility on cell proliferation of the corneal, limbal, and conjunctival epithelium in vivo following 2 days of extended wear in the rabbit model. METHODS: Fourteen adult New Zealand White rabbits were divided equally into two groups. Each group was assigned to one of two test rigid gas permeable (RGP) contact lenses (Dk/Ltotal = 10 and 97) with uniform thickness (0.15 mm) and diameter (14.0 mm). One eye of each rabbit randomly received a contact lens for two days (48 hrs) extended wear, and the fellow eye was used as a control. Rabbits were injected intravenously with 5-bromo-2-deoxyuridine (200 mg/kg) in sterile phosphate buffered saline (pH 7.4) 24 hours before being killed. Corneas with a limbal rim of episclera and overlying conjunctiva were fixed in situ and excised. Nuclei labeled with BrdU were detected with a monoclonal anti-BrdU antibody and an FITC-conjugated secondary antibody. Digital images were collected and BrdU-labeled nuclei of whole-mount corneas were counted from superior limbus to inferior limbus using epifluorescence microscopy. RESULTS: Twenty-four hours after intravenous injection of BrdU, labeled nuclei were confined to and appeared as pairs in the basal epithelial layer. The density of BrdU-labeled nuclei were found to be 258 +/- 42, 167 +/- 43, 372 +/- 64, and 310 +/- 46 (pairs/mm2, mean +/- SD, n = 14) in normal controls for adjacent conjunctiva, limbus, peripheral cornea, and central cornea, respectively. By contrast,there was significant 81.35% (low Dk)and 22.46% (ultra-high Dk) suppression of cell proliferation in the central cornea after two days lens wear (n = 7). In addition, significant increases in the labeling of limbal and conjunctival epithelium were also noted. CONCLUSIONS: Significantly less BrdU labeling of epithelial cells at the normal rabbit limbus was noted as compared to the peripheral and central cornea (P < 0.05) and is consistent with the presence of slow-cycling limbal basal cells and the limbal stem cell theory; however, this is the first report of up-regulation of limbal cell proliferation induced by contact lens wear. This study also revealed, for the first time, that short-term extended wear of RGP lenses inhibits central corneal epithelial cell proliferation. This effect was significantly more pronounced for a low-oxygen vs. a hyper-oxygen transmissible test lens. This data also suggests that corneal epithelial layer thinning seen following extended contact lens wear may be explained, in part, by suppression of basal epithelial cell proliferation. Further study is clearly necessary to validate and extend these preliminary findings.

Short-term hypoxia downregulates epithelial cell desquamation in vivo, but does not increase Pseudomonas aeruginosa adherence to exfoliated human corneal epithelial cells.

PURPOSE: This study evaluates the effect of hypoxic and hypercapnic stress on bacterial adherence to surface corneal epithelial cells, as well as tear LDH levels, surface cell desquamation, and corneal swelling in normal human subjects. METHODS: Sixteen eyes of eight human volunteers were successively exposed to three gas mixtures (air, 100% N2, 95% N2-5% CO2) through tightly fitted goggles for six hours at two-week intervals. Exfoliated epithelial cells were collected and counted using a modified corneal irrigation chamber. Bacterial binding was determined by measuring Pseudomonas aeruginosa (PA) adherence to exfoliated corneal epithelial cells. The effects of hypoxic or hypercapnic stress on the corneal surface were also assessed by tear LDH measurement, and quantification of surface epithelial cell size and epithelial and stromal thickness were determined by in vivo confocal microscopy. RESULTS: Short-term precorneal hypoxia significantly decreased corneal epithelial cell desquamation. Both short-term hypoxia alone and combined with hypercapnia induced significant corneal stromal swelling (7 to 8%) but did not significantly enhance PA adherence to exfoliated human corneal epithelial cells. CONCLUSIONS: This study demonstrates, for the first time, that short-term precorneal hypoxia downregulates corneal epithelial cell desquamation in humans. These results also demonstrate that short-term hypoxia alone or combined with hypercapnia does not significantly increase PA adherence to exfoliated epithelial cells from the human cornea. The results reveal that either longer hypoxic exposure or other interactive factor(s), including but not limited to the mechanical effect of the contact lens itself, may be required for promotion of increased epithelial cell-PA binding following lens wear in humans.

The relationship between contact lens oxygen permeability and binding of Pseudomonas aeruginosa to human corneal epithelial cells after overnight and extended wear.

PURPOSE: We designed a 3-year, prospective, randomized, masked clinical trial to evaluate the relationship of contact lens oxygen transmissibility and bacterial adherence to exfoliated surface epithelial cells in human overnight and extended lens wearers in a single center; corneal cell desquamation rate, surface epithelial cell size, and tear lactate dehydrogenase (LDH) levels were also determined concurrently. METHODS: One hundred nine human volunteers were successfully fit with test lenses prospectively and completed this study. Seven soft and three rigid gas permeable (RGP) lenses with stratified oxygen transmissibility were evaluated. After one week adaptation to daily wear, patients continually wore test lenses bilaterally for three months on a six nights wear, one night off basis. Before and after 24 hour, 1 month, and three months extended contact lens wear, exfoliated surface epithelial cells were collected using a modified corneal irrigation chamber. Bacterial binding was determined by measuring Pseudomonas aeruginosa (PA) adherence to exfoliated corneal epithelial cells. The number of exfoliated cells with adherent bacteria were counted using fluorescence microscopy. The effects of contact lens wear on the corneal surface were further assessed by alterations in tear LDH, and by surface epithelial cell size and epithelial thickness using in vivo tandem scanning confocal microscopy (TSCM). Baseline values of outcome measures served as controls for individual patients; a concurrent group of controls were also followed to monitor seasonal or possible individual fluctuations. RESULTS: Quantitative evidence demonstrated that lens physical oxygen transmissibility properties and not lens type significantly correlated inversely with binding of PA to human exfoliated corneal epithelial cells after overnight and extended wear (R=0.258, P=0.0084); there was a significant decrease in surface epithelial cell desquamation and a significant increase in surface cell size following wear for all test lenses (P<0.05). Epithelial thinning was also observed following lens wear (P<0.05). CONCLUSIONS: These results establish for the first time a significant correlation between contact lens-induced increases in epithelial PA binding and lens oxygen transmissibility in humans. New ultra-oxygen permeable test lenses did not appear to increase bacterial binding over individual control levels; all test lenses suppressed surface epithelial cell shedding. Taken together, these findings suggest that a new generation of contact lenses constructed from ultra-transmissible oxygen materials may offer a significant potential advance in safety for extended wear.

The influence of thymectomy on germ-cells of the testis in mice.

We performed thymectomy on the immature and mature male mice and made a quantitative assay of various germ cells of the seminiferous epithelium in the testis with Image Analyser System 35 days following thymectomy. The results indicated that as compared with the control group, all germ cells of the spermatogenesis lineage decreased in the immature group and in the mature group after thymectomy. The present study showed that thymus and its hormone stimulated not only the mitotic division, but also the meiotic division of germ cells during spermatogenesis, suggesting that thymus-sexual axis may play an important role in the process of spermatogenesis in the testis.