G. Auricchio

Lipid peroxidation and human cataractogenesis in diabetes and severe myopia

To investigate the role of lipid peroxidation in human cataract, malondialdehyde, a breakdown product of lipid peroxidation, was measured in clear and cataractous lenses from normal subjects, and in cataractous lenses from diabetics and from subjects with severe myopia. The cataractous lenses contained more malondialdehyde than did clear lenses and the level was higher in diabetes and severe myopia than in the idiopathic forms. This indicates that lipid peroxidation may be involved in the development of senile cataract and, as a direct consequence of retinal damage, also in the pathogenesis of cataract in diabetes and in severe myopia.

Effect of vitamin E on glutathione content in red blood cells, aqueous humor and lens of humans and other species

High doses of orally administered vitamin E have been given to humans, rabbits and rats. Placebo has been given to control groups. At the end of the treatment period, enhanced levels of reduced glutathione (GSH) were found in the red blood cells (humans and rabbits), aqueous humor (humans and rabbits) and lens (rabbits and rats) of treated subjects and animals. The percentage of GSH converted to oxidized glutathione (GSSG) was the same in both vitamin E-supplied and control groups. The GSSG--GSH ratio remained unchanged. The plasma levels of vitamin E were significantly higher in treated than in control subjects and animals. At the end of the study, the levels of vitamin E in aqueous humor and lens of rabbit were the same in animals which received vitamin E and in animals which received placebo. Lastly, vitamin E administration did not influence ascorbic-acid levels in plasma (humans and rabbits), aqueous humor, lens and vitreous body (rabbits).

HIGH FREQUENCY OF LACTOSE ABSORBERS AMONG ADULTS WITH IDIOPATHIC SENILE AND PRESENILE CATARACT IN A POPULATION WITH A HIGH PREVALENCE OF PRIMARY ADULT LACTOSE MALABSORPTION

22% of a group of adult Neapolitans were found to have persistent high lactase activity, and 16% were lactose absorbers as indicated by measurement of breath hydrogen concentration and rise in blood glucose after oral lactose administration. Among adults in the same area with idiopathic senile or presenile cataract 49% were identified as lactose absorbers with the breath hydrogen test and 55% by the rise in blood glucose. These results suggest that adults able to absorb galactose from a lactose-containing diet are especially susceptible to senile or presenile cataract.

In vitro effect of alpha-tocopherol on lysophosphatidylcholine-induced lens damage

Lysophosphatidylcholine (LPC) has been shown to be toxic to the lens in organ culture. An investigation into whether vitamin E counteracts the in vitro damaging effect of LPC on rat lenses was undertaken. A concentration higher than 10 micrograms ml-1 LPC in the culture medium is necessary to damage rat lenses, as assessed by protein content of the medium and Na+ and K+ content of the lens. Vitamin E affords its protection when present at a concentration of 10(-3) M: both the protein efflux from the lens and the lenticular cation imbalance are prevented, also if LPC concentration is 100 micrograms ml-1. This effect may be due more to the physicochemical properties of vitamin E in the stabilization of biological membranes, than to its chemical behaviour as an antioxidant.

Effect of Topical Glucocorticoid Administration on the Protein and Nonprotein Sulfhydryl Groups of the Rabbit Lens

The effects of topical administration of glucocorticoids on rabbit lenses are described. Animals were divided into three groups. The first group (A) served as control, the second (B) and the third (C) group were treated with betamethasone and fluorometholone, respectively. After 40 days of treatment there was a significant fall in the levels of nonprotein sulfhydryl (-SH) groups (group A: 3.82 +/- 0.21; group B: 2.61 +/- 0.11; group C: 1.93 +/- 0.13 mumol/lens) and of protein -SH groups (group A: 8.215 +/- 1.023; group B: 4.120 +/- 0.631; group C: 4.068 +/- 0.538 mumol/lens). Also ascorbic acid levels showed a significant decrease both in lens and in aqueous humor. No differences were noted in the reduced glutathione content in aqueous humor. The fall in nonprotein and protein -SH could be the first event in the well-known biochemical changes that occur in steroid-induced cataract. The mechanism underlying steroid-induced damage could be due to a conformational change of lens crystallins which results in an unmasking of -SH groups with a consequent increased susceptibility to oxidation. The decrease of ascorbic acid should represent an effect of the fall in the glutathione system. Lastly, it is hypothesized that the protective effect exerted by some substances, such as vitamin E and ascorbic acid, occurs by counteracting this oxidation.

The Decrease of Free Epsilon-Amino Groups in Senile and Diabetic Cataracts

Free epsilon-amino groups in soluble and insoluble proteins were measured in clear human lenses and in diabetic and nondiabetic senile cataractous lenses. The free epsilon-amino group content of soluble and insoluble proteins was significantly lower in diabetic cataracts than in clear lenses and nondiabetic senile cataracts. Our results seem to demonstrate that nonenzymatic glycosylation of lens proteins could play a role in the pathogenesis of diabetic cataract.

Cataract Formation in Diabetic Patients and Galactose-1-Phosphate Uridyltransferase Deficiency

We have evaluated the levels of red blood cell galactose-1-phosphate uridyltransferase in 20 patients with cataract and in 15 subjects without cataract, suffering from compensated, noninsulin-dependent, type II diabetes. The diabetic patients were compared with a previously examined group of 65 age-matched nondiabetic subjects (25 of whom suffered from bilateral idiopathic cataract). In diabetic patients, the average galactose-1-phosphate uridyltransferase levels tended to be lower and the percentage of cases of reduced enzymatic activity tended to be higher than in the corresponding nondiabetic subjects.

Effect of Experimental Uveitis on the Cation and Water Balance and Na-K-ATPase of the Rabbit Lens

Experimental uveitis in rabbits was obtained by injecting sterile horse serum into the vitreous. The following events have been demonstrated in the lens, when transparency was normal and the amount of