Alkali burns of the rabbit cornea

Summary In alkali burned rabbit corneas activities of -glucuronidase, N-acetyl--D-glucosaminidase and acid -galactosidase were studied histochemically in various time intervals after the traumatization. The technic with semipermeable membranes was employed. Within four days after the injury enzyme activities in the traumatized area were almost lacking. The corresponding activities in the unaffected part of the cornea were within the norm. On the 7th day enzyme activities were on an increase (but still subnormal) in the traumatized area. This area was surrounded by a zone of keratocytes with high levels of enzyme activities. This was particularly remarkable in keratocytes subjacent to the epithelium. The activation of all enzymes studied was present in the basal layer of the epithelium and in the endothelium as well. On the 14th day enzyme activities in the traumatized area were nearly restored and on the 32nd day they could not be distinguished from the normal cornea. -galactosidase displayed a relatively maximal increase in the activity of all enzymes investigated.     

Histochemistry of some proteases in the normal rabbit, pig and ox corneas

The distribution of activities of membrane aminopeptidases (aminopeptidase M (APM), aminopeptidase A (APA), dipeptidyl peptidase IV (DPP IV), gamma-glutamyltransferase (GGT) and lysosomal exopeptidases (dipeptidyl peptidase I (DPP I), dipeptidyl peptidase II (DPP II)) was investigated in rabbit, ox and pig corneas. Cryostat sections of snap-frozen corneas treated with chloroform-acetone (4 degrees C) were used for the demonstration of membrane-bound enzymes and sections of corneas fixed in 4% paraformaldehyde (4 degrees C) for the demonstration of lysosomal enzymes. In activities of proteases species differences were found. The rabbit cornea was most active, followed by ox and pig corneas. Individual corneal layers reacted differently. Of membrane proteases a high APM activity was found in keratocytes, whereas epithelium and endothelium were negative. On the other hand, APA and GGT were active in the epithelium and endothelium. Their activities in keratocytes were less pronounced. DPP IV activity was demonstrated in some keratocytes beneath the epithelium only. Lysosomal enzymes DPP I and DPP II were active in all corneal layers. The epithelium displayed the highest activity. Differences in activities in the centro-peripheral and epithelio-endothelial directions were found. DPP I, DPP II, and APM were most active in the limbal region in all corneal layers.     

Distribution of acid phosphatase, beta-glucuronidase, n-acetyl-beta-d-glucosaminidase and beta-galactosidase in cornea of albino rabbit.

Activities of acid phosphatase, beta-glucuronidase, N-acethyl-beta-D-glucosaminidase and acid beta-galactosidase were investigated histochemically in rabbit corneas. Frozen sections after block fixation in cold 4% formaldehyde with 1% CaCl2 followed by washing in cold physiological saline as well as cold microtome sections of corneas quenched in petroleter chilled with acetone-dry ice mixture, transferred to nonprecooled slides or semipermeable membranes were used. Standard aqueous media were employed in the case of free-floating frozen sections of fixed corneas as well as of cold mictrotome sections (postfixed in cold 4% formaldehyde). Agar media were used in connection with the technic of semipermeable membranes. Gomori method (in the case of acid phosphatase), simultaneous azocoupling methods (substrates derivated of naphthol-AS-BI with hexazonium-p-rosanilin) in the case of acid phosphatase, beta-glucuronidase and N-acetyl-beta-D-glucosaminidase and the indigogenic method in the case of acid beta-galactosidase were applied. Enzyme activities in sections of fixed corneas were minimal in comparison with those in cold microtome sections of unfixed material revealed particularly with the technic of semipermeable membranes which is to be preferred. This technic is recommended in studies concerned with lysosomal enzymes in the cornea, particularly in keratocytes. All enzymes investigated were present in corneal epithelium, keratocytes and endothelium. Acid phosphatase displayed the highest activity followed by beta-glucuronidase and acetyl-beta-D-glucosaminidase. The activity of beta-galactosidase was the lowest. For the demonstration of activities in keratocytes sections parallel to the surface are very suitable. In these sections enzyme activities were demonstrated in small granules (apparently lysosomes) present in the central part of their cytoplasm as well as in projections. Diffuse staining was also seen, being the highest in the case of acid phosphatase.     

Regeneration of the Cornea in Adult Newts: Overall Process and Behavior of Epithelial Cells

Regeneration of the cornea in adult newts was studied by means of light- and electron-microscopic techniques. We focused our analysis particularly on the behavior of epithelial cells during the initial process of wound healing after we had excised a central disk about 0.5 mm in diameter through the entire thickness of the cornea. Fine fibrous material, assumed to be fibrin, appeared within 30 min to form an acellular layer of mucous consistency which sealed the wound opening completely. The cut edge of corneal epithelium moved centripetally on this layer by coordinate movement of individual epithelial cells. Almost all cells of the remained epithelium were completely rearranged within 5 h after excision. Some desmosomes among the epithelial cells persisted during the process of cellular rearrangement. Thus, the wound opening was covered completely within 24 h by the epithelium alone without cell proliferation. Cytochalasin B or D completely inhibited movement of the corneal epithelium on the stroma in conditions in vitro, suggesting active participation of intracellular contractile microfilaments in such movement of the epithelium. Active growth of cells in the epithelium started on day 3 and the epithelium recovered its normal thickness by day 10 after excision.
After the recovery of the epithelium, keratocytes moved out from the wounded edge of the remained corneal stroma. These keratocytes actively proliferated in the wound area under the newly formed epithelium and participated in the stromal reconstitution, which proceeded gradually for more than 5 weeks.     

Histochemistry of some proteases in the normal rabbit,pig and ox corneas

Summary The distribution of activities of membrane aminopeptides (aminopeptidases M (APM), aminopeptidase A (APA), dipeptidyl peptidase IV (DPP IV), -gluamyltransferase (GGT) and lysosomal exopeptidases (dipeptidyl peptidase I (DPP I), dipeptidyl peptidase II (DPP II) was investigated in rabbit, ox and pig corneas. Cryostat sections of snap-frozen corneas treated with chloroform-acetone (4°C) were used for the demonstration of membrane-bound enzymes and sections of corneas fixed in 4% paraformaldehyde (4°C) for the demonstration of lysosomal enzymes.In activities of proteases species differences were found. The rabbit cornea was most active, followed by ox and pig corneas. Individual corneal layers reacted differently. Of membrane proteases a high APM activity was found in keratocytes, whereas epithelium and endothelium were negative. On the other hand APA and GGT were active in the epithelium and endothelium. Their activities in keratocytes were less pronounced. DPP IV activity was demonstrated in some keratocytes beneath the epithelium only. Lysosomal enzymes DPP I and DPP II were active in all corneal layers. The epithelium displayed the highest activity.Differences in activities in the centro-peripheral and epithelio-endothelial directions were found. DPP I, DPP II, and APM were most active in the limbal region in all corneal layers.     

Alkali burns of the rabbit cornea. II. A histochemical study of glycosaminoglycans.

In alkali burned rabbit cornea the stainability of glycosaminoglycans in cold microtome setions was investigated. Staining by Alcian blue in 3% acetic acid, Alcian blue in various MgCl2 concentration and toluidine blue (pH 4.5) was employed. From the 1st to the 4th experimental day the intensity of reactions was decreased. This is most probably due to an increased hydration of the corneal stroma. On the 7th day hydration was markedly suppressed and reached nearly the normal level. In this time interval a decreased stainability of glycosaminoglycans was seen accompanied by a complete loss of staining in the marginal zone. On the 14th day the stainability in the traumatized area began to restore and in the marginal zone appeared. On the 32nd day the staining intensity of both areas was normalised, however when lower concentrations of MgCl2 were used; in the presence of higher concentrations of MgCl2 the decreased staining intensity persisted and points to a lower sulfatation of glycosaminoglycans. This was particularly remarkable in the area bordering the injured zone. This decrease runs parallel to the increased activities of acid glycosidases (especially of acid beta-galactosidase) which were reported previously.     

Differential expression of cyclooxygenase-1 and cyclooxygenase-2 in the cornea during wound healing

Cyclooxygenases (COXs) are the key enzymes in the production of prostaglandins (PGs) and exist in two isoforms. Isoform 1 (COX-1) is constitutively expressed in most tissues, whereas cyclooxygenase-2 (COX-2) is rapidly induced by a variety of different stimuli. In this study, we have quantitatively analyzed mRNA expression of COX-1 and COX-2 and protein distribution during corneal reparative processes after wound. Total RNA was isolated from cornea samples of New Zealand rabbits that had been subjected to corneal wound by mechanical brush scraping. Quantification of RT-PCR results was made by using a DNA mimic approach. The localization and expression of the enzymes was studied by immunocytochemistry and Western blotting. In normal corneas COX-1 is expressed throughout the cornea in the whole tissue, while COX-2 is strongly expressed in stromal keratocytes. Following injury, COX-2 levels drastically increase and, at least in the epithelium, COX-2 becomes the predominant isoform of cyclooxygenases at an early stage of healing. Moreover, in the epithelium COX-2 is expressed predominantly by those cells close to the wound. These cells become migratory and move toward the injured area. In contrast, COX-1 levels remain unaffected in all corneal tissues. The system returns to the pre-injury state in about 24h. Thus, the expression of COX-2 in the corneal epithelium during wound repair is tightly regulated both temporally and spatially.     

Light microscopic demonstration of myoid material in nuclei

Summary In the rabbit and bovine cornea the activity of alkaline phosphatase using histochemical as well as biochemical methods was investigated. Biochemically the enzyme activity was studied in separated corneal layers. In the histochemical investigation the best results were obtained in cryostat sections using the azocoupling method with naphthol AS-MX phosphate and Variamine Blue RT Salt. The enzyme activity was found not only in the epithelium and endothelium (as was described previously) but even in keratocytes. The mutual relation of activities in the epithelium and in keratocytes differed in both species. The overall activity found by histochemical methods is in good agreement with the biochemical determination of alkaline phosphatase (p-nitrophenyl phosphate as the substrate). Besides the histochemical approach shows an uneven distribution of alkaline phosphatase activity in individual cells which cannot be assessed by the biochemical determination.     

Adaptation of the small intestine during pregnancy and lactation in the rat.

During pregnancy and lactation in the rat the small intestine in general and the mucosal epithelium in particular gain weight. The specific activities of sucrase, lactate dehydrogenase and succinate-tetrazolium reductase remain constant and those of glucose 6-phosphate dehydrogenase and isocitrate dehydrogenase increase. There is no evidence that the reported decrease in absorption per unit area or weight of mucosal epithelium during pregnancy and lactation is due to decreases in enzyme activities within the epithelium. The pattern of enzyme change shows that the response of the gut to the stimuli of pregnancy and lactation must be a complex one, possibly involving increases in the specific activities of some enzymes.     

Changes of superoxide dismutase, catalase and glutathione peroxidase in the corneal epithelium after UVB rays. Histochemical and biochemical study

In this study, the effects of UVA and UVB rays on antioxidant enzymes (superoxide dismutase, glutathione peroxidase, catalase) were examined in the corneal epithelium. The corneas of albino rabbits were irradiated with a UV lamp generating UVA (365 nm wavelength) or UVB rays (312 nm wavelength), 1 x daily for 5 min, from a distance of 0.03 m, over 4 days (shorter procedure) or 8 days (longer procedure). In contrast to UVA rays, which did not evoke significant disturbances, UVB rays changed the activities of antioxidant enzymes. The longer repeated irradiation with UVB rays was performed, the deeper the observed decrease in antioxidant enzymes. The shorter procedure evoked a more profound decrease of glutathione peroxidase and catalase (the enzymes cleaving hydrogen peroxide) than of superoxide dismutase, an enzyme scavenging superoxide radical and producing hydrogen peroxide during the dismutation reaction of a superoxide free radical. This may contribute to an insufficient hydrogen peroxide cleavage at the corneal surface and danger to the cornea from oxidative damage. After the longer procedure (UVB rays), the activities of all antioxidant enzymes were very low or completely absent. In conclusion, repeated irradiation of the cornea with UVB rays evokes a deficiency in antioxidant enzymes in the corneal epithelium, which very probably contributes to the damage of the cornea (and possibly also deeper parts of the eye) from UVB rays and the reactive oxygen products generated by them.     

Postnatal development of the energy supplying enzyme pattern in the rat brain

The activity of seven enzymes connected with energy-supplying metabolism was followed from the second day of life till adulthood (87th day). The enzymes selected were: 1. Triosephosphate dehydrogenase (TPDH), 2. Lactate dehydrogenase (LDH), 3. Glycerol-3-phosphate: NAD dehydrogenase (GPDH), 4. Hexokinase (HK), 5. Malate: NAD dehydrogenase (MDH), 6. Citrate syntase (CS) and 7. 3-Hydroxyacyl Co A dehydrogenase. Although some variations occurred, the enzyme profiles were characteristic of those of the nervous tissue from the second day of life onwards until adulthood and displayed relatively high activities of HK, CS and MDH and low activities of TPDH, LDH, GPDH and HOADH. The activities of all enzymes studied here increased during postnatal development and some reached adult values on the 14th day, that of TPDH on the 27th day and HOADH on the 41st day of life. The activities of MDH and GPDH did not attain the adult values still on the 41st day of life. The anaerobic energy supply capacity seems to increase transiently on the 31st day of life, i.e. at a developmental stage where the resistance against hypoxia is known to increase transiently.     

The development of the guinea pig gallbladder epithelial cells. II. Electron microscopical and enzymhistochemical investigations (author's transl)]

The development of the guinea pig gallbladder epithelium follows a distinct time schedule. During the first phase (up to 30th day of intrauterine life) the epithelial cells increase in number. They remain small and undifferentiated. In the second phase, from the 30th to the 44th day, cytodifferentiation is a dominating feature. The epithelial cells increase in height, the nuclei become more basal, the cells acquire their final zonal structure and the cell organelles exhibit their characteeristic appearance. Weak enzyme activities can be observed. In the third phase, from the 45th day until birth, there is functional differentiation and the adult pattern of enzyme distribution is established. Glycogen appears first on day 29, increases in amount and then disappears by day 57. There is a marked development of the Golgi apparatus associated with increased synthesis of secretory material. Between the 59th embryonic day and the 6th day of life mucoid cells with different functional states appear in the gallbladder epithelium. Later on these cells can be visualized only in the depths of the invaginations. After birth the epithelial cells become more columnar and by 10 days after birth the adult appearance of the epithelium is fully established.     

The development and pattern of innervation of the avian cornea

The involvement of nerves in the development of the avian cornea is poorly understood, primarily because the demonstration of corneal nerves has proved to be elusive. In the present study, the development of corneal innervation is demonstrated by the application of a modified Bodian staining technique (J. Lewis, 1978, Zoon, 6, 175–179). On the 6th day of embryonic development, numerous large fascicles of axons are observed arriving at the ventrotemporal aspect of the cornea, within the periocular mesenchyme. These fascicles subdivide into two distinct groups which migrate both ventrally and, more extensively, dorsally around the cornea. Progressive migration of nerve fascicles around the cornea occurs through the 7th and 8th days of development, and by the 10th day the cornea is ensheathed within a ring of nerves. Concomitant with ring formation, nerves are observed leaving the main nerve fascicles and migrating toward the cornea. Numerous nerve processes, which enter through the mid-stroma, are observed migrating toward the center of the 12th-day cornea. Innervation of the epithelium is detected on the 12th day, beginning at the periphery and increasing dramatically with development. Innervation of the epithelium is almost complete on the 16th day and penetration of nerves into the central stroma occurs on the 18th day of development. On the 16th day, the basal epithelial cells begin to demonstrate silver-staining properties. The levels of this staining increase with development, and in the hatchling the squamous cells demonstrate a characteristic silver-staining pattern. Innervation of the corneal endothelium is not observed. These results indicate that the avian cornea and its epithelium become innervated over the same developmental period in which the major transition from corneal opacity to transparency is achieved.     

Radiation-induced histochemical and ultrastructural changes in the enterocytes in the rabbit.

Ultrastructural changes and enzyme activities in the cell organelles of rabbits were studied within 1, 3, 6, 9, 15 and 30 days of the irradiation with 550 rads of gamma-radiation. Between the 1st and 3rd day after irradiation there was a fall in the succinate dehydrogenase activity in the swollen and frequently tigroidal mitochondria whose number distinctly diminished. By the 15th day these changes disappeared. In the hyaloplasm there was weakening of the reaction for lactate dehydrogenase after 1 day, and an increase in number of polysomes, glycogen granules and smooth vesicles after 3-9 days after irradiation. The glucose-6-phosphatase activity was unchanged and so was the shape of the Golgi apparatus. The activity of lysosomal enzymes and the number of lysosomes in the experimental groups was approximately normal. By the 6th day the activity of alkaline phosphatase in the striated border was lowered, subsequently normal. On the whole, the intensity of postradiation changes in the intestinal mucosal epithelium is correlated with the rhythm of proliferation and shedding of epithelial cells, although some signs of injury persist for longer time periods.     

干旱胁迫下沙生灌木花棒的抗氧化保护响应研究

采用盆栽试验,测定了在不同土壤水分胁迫程度和胁迫时间下花棒苗抗氧化保护酶(SOD、CAT、POD、APX)活性和抗氧化物(AsA、GSH、Car)含量,并用隶属函数值法综合评价了试验条件下花棒苗的抗氧化能力。结果显示:(1)与同期适宜水分处理相比,花棒苗的抗氧化保护酶活性在中度和重度干旱胁迫30d时均显著增加;胁迫60d时,POD活性均显著降低,而其余酶活性仍增加(重度胁迫)或显著增加(中度胁迫);胁迫90d时,中度胁迫处理除APX活性持平外,其余酶活性仍显著升高,而重度胁迫处理的SOD活性持平、POD活性显著增加、CAT和APX活性均显著降低。(2)相对于同期适宜水分处理,干旱胁迫30d时,中度胁迫处理的花棒苗AsA、Car、GSH含量分别显著增加、稍有增加和显著降低,而重度胁迫的AsA显著增加,Car和GSH含量均显著降低;胁迫60d时,中度胁迫处理的AsA、Car、GSH含量分别显著增加、稍有降低和稍有提高,而重度胁迫的AsA、Car、GSH含量分别显著增加、稍有增加和显著降低;胁迫90d时,中度胁迫处理的AsA含量显著增加,Car和GSH含量均稍有提高,而重度胁迫的AsA含量稍有下降,Car和GSH含量则持平。(3)花棒苗的MDA含量在干旱胁迫过程中均比适宜水分处理增加,且中后期达到显著水平。(4)花棒苗抗氧化能力在干旱胁迫30d表现为重度干旱>中度干旱>适宜水分,胁迫60d为中度干旱>重度干旱>适宜水分,胁迫90d时为中度干旱>适宜水分>重度干旱。研究表明,花棒苗在中度干旱胁迫下能调动自身抗氧化保护酶类与抗氧化物质并提高其抗氧化能力,消除或减轻干旱诱导的活性氧毒害;重度干旱胁迫下的花棒苗在胁迫前中期亦能增强自身的抗氧化能力,但在胁迫后期因部分活性氧清除机制受到破坏而使抗氧化能力降低。     

Reactive oxygen species (ROS)-generating oxidases in the normal rabbit cornea and their involvement in the corneal damage evoked by UVB rays

The corneas of albino rabbits were irradiated (5 min exposure once a day) with UVB rays (312 nm) for 4 days (shorter procedure) or 8 days (longer procedure). The eyes were examined microbiologically and only the corneas of sterile eyes or eyes with non-pathogenic microbes were employed. Histochemically, the activities of reactive oxygen species (ROS)-generating oxidases (xanthine oxidase, D-amino acid oxidase and alpha-hydroxy acid oxidase) were examined in cryostat sections of the whole corneas. Biochemically, the activity of xanthine oxidoreductase/xanthine oxidase was investigated in the scraped corneal epithelium. UVB rays significantly changed enzyme activities in the corneas. In comparison to the normal cornea, where of ROS-generating oxidases only xanthine oxidase showed significant activity in the corneal epithelium and endothelium, D-amino acid oxidase was very low and alpha-hydroxy acid oxidase could not be detected at all, in the cornea repeatedly irradiated with UVB rays, increased activities of xanthine oxidase and D-amino acid oxidase were observed in all corneal layers. Only after the longer procedure the xanthine oxidase and D-amino acid oxidase activities were decreased in the thinned epithelium in parallel with its morphological disturbances. Further results show that the xanthine oxidase/xanthine oxidoreductase ratio increased in the epithelium together with the repeated irradiation with UVB rays. This might suggest that xanthine dehydrogenase is converted to xanthine oxidase. However, in comparison to the normal corneal epithelium, the total amount of xanthine oxidoredutase was decreased in the irradiated epithelium. It is presumed that xanthine oxidoreductase might be released extracellularly (into tears) or the enzyme molecules were denatured due to UVB rays (particulary after the longer procedure). Comparative histochemical and biochemical findings suggest that reactive oxygen species-generating oxidases (xanthine oxidase, D-amino acid oxidase) contribute to the corneal damage evoked by UVB rays.     

Expression of adenosine deaminase and 5'-nucleotidase in artificially induced deciduoma in rat and hamster

Enzymes adenosine deaminase (ADA) and 5-nucleotidase (5-'NT) are known to play active role in tissue/cell proliferation and differentiation. To validate this the two enzymes were studied in artificially induced deciduoma of rat and hamster. The deciduoma was induced by traumatizing one of the uterine horns of progesterone primed animals. Non traumatized horn served as control. The animals were later maintained on progesterone, given alone (Gr.I) or conjointly with estrogen (Gr.II). The weight of each uterine horn was recorded to determine the formation of deciduoma. There was no marked difference between the weights of traumatized and control horn on day 2 post-traumatization (PT), but a progressive rise was noticed after this day in both species. The ADA activity however differed, day and species wise. While in the rats of Gr.I it was low in the traumatized horn on all the days, in the hamsters it was remarkably high from day 2 to 6 PT. In the rats of Gr.II also the activity though was low in the traumatized horn, but on day 2 and 4 only; on day 6 and 7 PT it increased markedly. In hamster, on the contrary, again the enzyme activity was remarkably high on all the three days. The 5'-NT activity, however, did not show any marked difference between the two horns under Gr.I and II in both species. It was rather high in the control horn of each group. The results suggest: (I) the progesterone alone though produces a significant rise in the uterine weight of traumatized horn in both species, the ADA activity increases only in hamster, (2) under the conjoint treatment also the enzyme activity remains high in hamster; and (3) the activity of enzyme 5'-NT does not alter during the deciduoma formation in both the species.     

Contribution of Oxidative Stress to the Development of Cold-Induced Damage to Leaves of Chilling-Sensitive Plants: 2. The Activity of Antioxidant Enzymes during Plant Chilling

Changes in the activities of cytosolic superoxide dismutase, ascorbate peroxidase, and catalase were studied in 7–11-day-old seedlings of maize (Zea mays L.), cucumber (Cucumis sativus L.), millet (Panicum miliaceum L.), and etiolated potato (Solanum tuberosum L.) sprouts. The assays were performed immediately after chilling at 2°C for 1–24 h and one day after 24-h chilling. During the first 1–2 h of chilling, enzyme activities were substantially reduced in chilling-sensitive plants (cucumber and maize). Further chilling resulted in a gradual increase in the enzyme activities to a degree dependent on plant species. One day after the plants were returned to a high temperature, the enzyme activities were restored to an initial level or exceeded it (excluding maize superoxide dismutase). In the potato (cold-resistant species), we did not observe any regular changes in the activities of antioxidant enzymes. On the whole, the activities of these enzymes inversely depended on species cold-resistance. The conclusion is that one of the cold-resistance factors is the capacity of antioxidant enzymes to maintain their activities during chilling and restore them relatively rapidly after plant transfer to warm conditions.     

Proliferation and apoptosis in the epithelium of the developing human cornea and conjunctiva.

To determine the distribution of proliferating and apoptotic cells in the human cornea during prenatal and early postnatal development, we examined sections of the bulbar conjunctiva, the limbus as well as the central and peripheral cornea between 11 weeks of gestation and 6 months after birth. The objective was to localize dividing cells by proliferating cell nuclear antigen-like immunoreactivity (PCNA-LI) and apoptotic cells by terminal transferase-mediated nick-end labeling (TUNEL). Before the 17th gestational week, PCNA-LI was absent in all 4 regions examined, indicating negligible cell proliferation during early development. After 20 weeks, strong PCNA-labeling was observed in all regions examined suggestive of high proliferative activity not only in the limbus and the bulbar conjunctiva, but also in the central and peripheral cornea. This rise in proliferative activity was followed by a steady decline: after 28 weeks, anti-PCNA staining gradually disappeared in the central and peripheral cornea, so that, at 6 months after birth, it was confined to the limbus and the bulbar conjunctiva, resembling the picture described for the adult cornea. TUNEL-positive cells were virtually absent in all 4 regions examined before the 38th gestational week. Apoptotic cells only started to appear at 38 weeks; at this stage, they were confined to the bulbar conjunctival epithelium. At 6 months after birth, TUNEL-positive cells were observed in the bulbar conjunctival epithelium and the entire cornea; the limbus, however remained devoid of apoptotic cells throughout the entire prenatal and early postnatal period. The present study for the first time localizes proliferating and apoptotic cells in the epithelium of the developing human cornea. Three stages of development can be distinguished: Minimal proliferation (until 17th week), vigorous proliferation over the entire cornea including the limbus and the bulbar conjunctiva (until 28th week) and gradual decrease in proliferative activity (after 28th week) accompanied by the appearance of apoptotic cells.