Effects of acute and chronic stress on the neural retina of young, mid-age, and aged Fischer-344 rats

Place-Based Measures of Inequity and Vision Difficulty and Blindness

Importance

Known social risk factors associated with poor visual and systemic health in the US include segregation, income inequality, and persistent poverty.

Objective

To investigate the association of vision difficulty, including blindness, in neighborhoods with measures of inequity (Theil H index, Gini index, and persistent poverty).

Design, Setting, and Participants

This cross-sectional study used data from the 2012-2016 American Community Survey and 2010 US census tracts as well as Theil H index, Gini index, and persistent poverty measures from PolicyMap. Data analysis was completed in July 2023.

Main Outcomes and Measures

The main outcome was the number of census tract residents reporting vision difficulty and blindness (VDB) and the association with the Theil H index, Gini index, or persistent poverty, assessed using logistic regression.

Results

In total, 73 198 census tracts were analyzed. For every 0.1-unit increase in Theil H index and Gini index, there was an increased odds of VDB after controlling for census tract-level median age, the percentage of the population that identified as female sex, the percentage of the population that identified as a member of a racial or ethnic minority group, state, and population size (Theil H index: odds ratio [OR], 1.14 [95% CI, 1.14-1.14; P < .001]; Gini index: OR, 1.15 [95% CI, 1.15-1.15; P < .001]). Persistent poverty was associated with an increased odds of VDB after controlling for census tract-level median age, the percentage of the population that identified as female sex, the percentage of the population that identified as a member of a racial or ethnic minority group, state, and population size compared with nonpersistent poverty (OR, 1.36; 95% CI, 1.35-1.36; P < .001).

Conclusions and Relevance

In this cross-sectional study, residential measures of inequity through segregation, income inequality, or persistent poverty were associated with a greater number of residents living with VDB. It is essential to understand and address how neighborhood characteristics can impact rates of VDB.

Maternal separation induces retinal and peripheral blood mononuclear cell alterations across the lifespan of female rats

Early life stress alters the function and feedback regulation of the hypothalamic-pituitaryadrenal (HPA) axis, and can contribute to neuroinflammation and neurodegeneration by modifying peripheral blood mononuclear cell (PBMC) activity. The retina, as part of the nervous system, is sensitive to immune changes induced by stress. However, the consequences of stress experienced at an early age on retinal development have not yet been elucidated. Here we aimed to evaluate the impact of maternal separation (MatSep) across three stages of the lifespan (adolescent, adult, and aged) on the retina, as well as on progression through the cell cycle and mitochondrial activity in PBMCs from female Wistar rats. Newborn pups were separated from their mother from postnatal day (PND) 2 until PND 14 for 3 h/day. Retinal analysis from the MatSep groups showed architectural alterations such as a diminished thickness of retinal layers, as well as increased expression of proinflammatory markers DJ-1, Iba-1, and CD45 and the gliotic marker GFAP. Additionally, MatSep disrupted the cell cycle and caused long-term increases in mitochondrial activity in PBMCs from adolescent and adult rats. Changes in the cell cycle profile of the PBMCs from aged MatSep rats were undetected. However, these PBMCs exhibited increased sensitivity to H₂O₂-induced oxidative stress in vitro. Therefore, these results suggest that early life stress can have long-term effects on retinal structure and function, possibly elicited by neonatal immune preconditioning.

The effect of age on the response of retinal capillary filling to changes in intraocular pressure measured by optical coherence tomography angiography

PURPOSE

To compare the effect of elevated intraocular pressure (IOP) on retinal capillary filling in elderly vs adult rats using optical coherence tomography angiography (OCTA).

METHODS

The IOP of elderly (24-month-old, N=12) and adult (6-8month-old, N=10) Brown Norway rats was elevated in 10mmHg increments from 10 to 100mmHg. At each IOP level, 3D OCT data were captured using an optical microangiography (OMAG) scanning protocol and then post-processed to obtain both structural and vascular images. Mean arterial blood pressure (MAP), respiratory rate, pulse and blood oxygen saturation were monitored non-invasively throughout each experiment. Ocular perfusion pressure (OPP) was calculated as the difference between MAP for each animal and IOP at each level. The capillary filling index (CFI), defined as the ratio of area occupied by functional capillary vessels to the total scan area but excluding relatively large vessels of >30μm, was calculated at each IOP level and analyzed using the OCTA angiograms. Relative CFI vs IOP was plotted for the group means. CFI vs OPP was plotted for every animal in each group and data from all animals were combined in a CFI vs OPP scatter plot comparing the two groups.

RESULTS

The MAP in adult animals was 108±5mmHg (mean±SD), whereas this value in the elderly was 99±5mmHg. All other physiologic parameters for both age groups were uniform and stable. In elderly animals, significant reduction of the CFI was first noted at IOP 40mmHg, as opposed to 60mmHg in adult animals. Individual assessment of CFI as a function of OPP for adult animals revealed a consistent plateau until OPP reached between 40 and 60mmHg. Elderly individuals demonstrated greater variability, with many showing a beginning of gradual deterioration of CFI at an OPP as high as 80mmHg. Overall comparison of CFI vs OPP between the two groups was not statistically significant.

CONCLUSIONS

Compared to adults, some, but not all, elderly animals demonstrate a more rapid deterioration of CFI vs OPP. This suggests a reduced autoregulatory capacity that may contribute to increased glaucoma susceptibility in some older individuals. This variability must be considered when studying the relationship between IOP, ocular perfusion and glaucoma in elderly animal models.

Age-related retinal degeneration in animal models of aging: possible involvement of taurine deficiency and oxidative stress

There is strong evidence that the retina degenerates with age. Electroretinogram deficits and photoreceptor cell death and structural abnormalities have been observed in both animal and human studies of aging. The mechanism behind this phenomenon is a very interesting area for scientific and medical study. Current data support the link between retinal degeneration and increased oxidative stress. Taurine is a free amino acid found in high millimolar concentrations in the retina, and age-related deficiency in retinal levels of taurine may contribute to the retinal degeneration associated with age. Taurine acts as an antioxidant and taurine replenishment is known to alleviate oxidative stress in the retina. Thus taurine supplementation may be useful in the treatment of age-related retinal dysfunction.

Proximal versus distal cue utilization in preweanling spatial localization: the influence of cue number and location

The present study was designed to examine the role of cue location and number in spatial navigation of the preweanling Fischer-344N rat in the Morris water maze using a protocol consistent with the pups' response repertoire. The proximal (visible platform) versus distal (hidden platform) cue strategy was used, and spatial cues within the extramaze environment were configured such that the arrangement presented either a double cue or null cull condition relative to the platform location. All pups' performance improved with training; however, probe trial performance, defined by quadrant time and platform crossings, revealed distal-double cue pups demonstrated spatial navigational ability superior to the remaining groups. This experimental dissociation suggests that a pup's ability to spatially navigate a hidden platform is dependent on not only its response repertoire and task parameters but also its visual acuity, as determined by the number of extramaze cues and the location of these cues within the testing environment. The hidden versus visible platform dissociation may not be a satisfactory strategy for the control of potential sensorimotor deficits.

Senile ocular amyloidosis in SAM and BALB/c strains of mice

We investigated whether amyloid deposition can affect retinal atrophy in old SAMR1, SAMP1 and BALB/c mice. Immunohistochemistry revealed that old SAMP1 mice showed the deposition of the murine senile amyloid protein fibril, AApoA-II in the subconjunctival tissue, the vessel walls near the chamber angle, and the sheaths of the external ocular muscles and the conjunctival glands, but was never observed in the retina or the choroid. Although the old SAMR1 mice also showed a remarkable loss of retinal photoreceptor and ganglion cells, they never showed any amyloid deposition. The BALB/c strain did not showed any amyloid deposition either. Our data suggest that atrophy of the retina is not related to senile systemic amyloidosis in mice.

A morphological and morphometrical study of the retina in aging SAM mice

We investigated whether neuronal cell loss occurred as a part of normal aging of the retina in the Senescence-Accelerated Mouse, strains SAMP1 and SAMR1, and in the BALB/c mouse. All three strains showed age-related atrophy of the retina after histologically normal development. Morphometrical study revealed the following facts. The rate of loss of photoreceptor cells in the peripheral retina was greater than in the central retina in all three strains. In the central retina, the rate of loss of photoreceptor cells was greater in the SAMP1 and SAMR1 mice than in the BALB/c mice. In the peripheral retinal, the SAMR1 and SAMP1 strains had fewer cells than the BALB/c strain at all ages, but the rate of loss of these cells did not differ among the three strains. The rate of loss of ganglion cells did not differ between the peripheral and central retinas in the three strains. The SAMR1 and SAMP1 strains had fewer ganglion cells in the peripheral retina than the BALB/c strain at all ages. Because the rate of age-related loss of these cells in SAMP1 mice was not accelerated, and they were short-lived, SAMP1 mice did not show marked age-related loss. On the contrary, the SAMR1 mice showed a marked loss of photoreceptor cells and ganglion cells late in life because of their longer life span, and we propose that this strain is a suitable animal model for the study of mechanisms of age-related loss of neuronal cells in the retina.

Aging of blood-brain barrier and neuronal cells of eye and ear in SAM mice

The SAMP, Senescence-Accelerated Mouse strains show senescence acceleration and age-associated pathological phenotypes similar to geriatric disorders seen in humans. Among these strains, SAMP8 mice show age-associated deficits in learning and memory. Histopathological studies revealed various neurodegenerative changes in the brain, including age-associated appearance of spongiform degeneration in the brain stem and of PAS-positive granular structures in the hippocampus. The blood-brain barrier (BBB) function of SAMP8 mice was also impaired with advancing age. The compromised BBB function in the olfactory bulb, the hippocampus and the pons of SAMP8 mice coincided with and might have been the cause of some morphological changes. Age-associated degeneration of receptor cells and ganglion neurons in the retina and cochlea also occurred in the SAM mice. Oxidative stress partly caused by mitochondrial dysfunction was detected and may be a cause of the neuronal cell degeneration. The SAM strains are useful tool in the attempt to understand the mechanisms of age-dependent neurodegeneration and to develop clinical interventions.

Age-related changes in the tiger salamander retina

Tiger salamanders have been used in visual science because of the large size of their cells and the ease of preparation and maintenance of in vitro retinal preparations. We have found that salamanders over 27 cm in length show a variety of visual abnormalities. Compared to smaller animals (15-23 cm), large animals exhibited a decrease in visual responses determined by tests of the optomotor reflex. Small animals responded correctly an average of 84.5% of the time in visual testing at three light levels compared to an average of 68.4% for the large animals with the poorest visual performance at the lowest level of illumination. In addition, large animals contained (i) histological degeneration of the outer retina, in particular, loss and disruption of outer segments and abnormalities of the retinal pigmented epithelium, (ii) loss of cells, including photoreceptors, by apoptosis as evaluated with the TUNEL technique, and (iii) an increase in the number of macrophages and lymphocytes within the retina as determined by morphological examination. These histological changes were present in all large animals and all quadrants of their retinas. In contrast, small animals showed virtually no retinal degeneration, no TUNEL-positive cells, and few immune-like cells in the retina. Since large animals are also older animals. the visual changes are age-related. Loss of visual function and histological degeneration in the outer retina also typify aged human eyes. Thus, we propose that large salamanders serve as an animal model for age-related retinal degeneration. In addition to providing a source of aging retina that is readily accessible to experimental manipulation, the salamander provides a pigmented retina with a mixed (2:1, rod:cone) population of photoreceptors, similar to the degeneration-prone parafoveal region of the human eye.

An ex vivo rat retinal preparation for excitotoxicity studies

Although the isolated chicken embryo retina has been a very useful in vitro preparation for studying mechanisms of excitotoxicity, it is an avian rather than mammalian tissue and its embryonic age makes it unsuitable for a full range of developmental and aging studies. Therefore, we have explored the feasibility of using the rat retina at various ages for in vitro excitotoxicity studies. In this model, retinal segments were isolated in artificial cerebrospinal fluid (CSF) at 5 degrees C then incubated under various conditions at 30 degrees C and assessed histologically for signs of neurodegenerative changes. Retinal segments from 7-, 30-, 120- and 660-day-old rats incubated in CSF for 3 h and from 30-day-old rats incubated for 24 h retained a normal histological appearance. Thus, this preparation is suitable for in vitro studies pertaining to either acute or delayed excitotoxic phenomena in the mammalian CNS at any age from infancy to old age. Excitotoxin agonist experiments in the 30-day-old rat retina revealed the surprising result that the non-NMDA agonists, kainate and AMPA, at a low concentration (100 microM) damaged a much larger number of retinal neurons than NMDA did at a very high concentration (10 mM).

Water maze performance of aged Sprague-Dawley rats in relation to retinal morphologic measures

The spatial learning ability of aged male and female Sprague-Dawley rats was assessed using the Morris water maze. To determine the influence of age-related visual deficits on performance levels, retinal morphologic measures were correlated with water maze performance for each rat. Rats were first trained on the water maze task at 21 months of age and were retrained 3 or 4 times at 6-week intervals. After the last training session the rats were killed and their eyes were removed for histopathologic and morphometric evaluation of the retinas. There was a large degree of retinal degeneration in all of the aged Sprague-Dawley rats with an average decrease in the thickness of the retinal outer nuclear layer (photoreceptor nuclei containing layer) of 85% in old males and 95% in old females. Some rats, however, had less degeneration of the retinas than others, and the degree of retinal degeneration was strongly related to performance levels on the water maze task. Among the aged rats in this study with the least retinal degeneration, there was little evidence for a subset of rats that were unable, with extensive training, to learn a platform position. Of the 41 rats with the least retinal degeneration (out of a total of 81), only one was a clear non-learner on the water maze task, whereas, of the 27 rats with the most retinal degeneration, 20 were non-learners. These results illustrate the potentially serious confounding effects of deteriorating visual ability on attempts to assess cognitive functioning of aged albino rats on tasks requiring utilization of visual cues.

Analysis of severe photoreceptor loss and Morris water-maze performance in aged rats

In a study of aging and memory in 25-27-month-old albino rats, performance on a Morris water maze was found to be dependent on the structural integrity of the retina. Generally, as expected, 'learners' had intact retinas, while 'non-learners' had retinas with severe photoreceptor loss and a non-continuous outer nuclear layer, consisting of scattered cell nuclei. However, contrary to this general correlation between learning ability and photoreceptor presence, some learners had severely degenerated retinas and occasionally, non-learners had photoreceptor populations that apparently were comparable to those of learners. Rat retinas from these unpredictable, borderline response categories were examined histopathologically and morphometrically with the purpose of determining the minimal number of photoreceptors (PRs) necessary for animals to be rated as learners on the Morris water maze. However, among these severely damaged retinas of borderline groups, total number of surviving photoreceptors did not vary significantly among the learner, ambiguous or marginal and non-learner groups. The population of surviving PRs in learners was as low as 0.04% and in non-learners as high as 0.4%, as compared to that of young, adult rats. Therefore, borderline learners and non-learners had overlapping surviving PR numbers and the results did not clarify the response difference between these groups in the Morris water maze. It is suggested that the pattern of surviving PRs over the retinal surface, as well as the ratio of surviving rods to cones and their connectivity with other retinal neurons, may be related to the residual function of degenerated retinas of learner rats.(ABSTRACT TRUNCATED AT 250 WORDS)

The influences of age, retinal topography, and gender on retinal degeneration in the Fischer 344 rat

The Fischer 344 (F344) rat is presently the animal of choice for age-related research. The existence of an age-related retinal degeneration was reported previously in the males of this strain, but a gender comparison has not been performed. In this study, histological and morphometric measurements of the retina related to age, retinal topography, and gender were made on 3- to 24-month-old animals. The thicknesses of the outer nuclear layer (ONL) and the photoreceptor layer (PRL) were measured from sagittal sections at six loci. Retinas of both sexes showed steady decline with age in the thicknesses of the ONL and PRL at all locations. An important finding was the presence, after 12 months of age, of a drastically accelerated rate of peripheral retinal degeneration seen only in male subjects. Females showed a less dramatic rate of peripheral degeneration which did not begin until after 18 months of age. In addition, two other forms of retinal degeneration were found--cystoid degeneration was found earlier and more frequently in the male, while a paving-stone type of degeneration was found in both sexes. These two types of lesions were preferentially, but not exclusively found in the peripheral retina. In conclusion, the F344 rat offers a convenient model to study a pattern of retinal degeneration affected by the combination of gender, regional and age-related factors.

Age-related alterations in potentiation in the CA1 region in F344 rats

F344 rats of various ages (2-3 months, 15-16 months, and 24-25 months) were tested on a spatial memory task. The 15- and 24-month-old rat groups showed impaired acquisition and retention of the memory task, compared to the young animals. Extracellular field potential recordings in the CA1 region were subsequently performed in vitro, using hippocampal slices from both these tested rats and similar but untested F344 young and aged rats. Findings included: a) a positive correlation between baseline dendritic EPSP slope values and retention scores across age groups; b) a more rapid decay of both somatic and dendritic short-term potentiation in aged slices; c) decreased somatic but not dendritic long-term potentiation overall in aged slices, regardless of bath Mg2+ level; and d) decreased paired-pulse facilitation in slices from aged rats bathed in 4.0 mM Mg2+ media compared to young controls. These findings suggest an age-related alteration in both presynaptic and postsynaptic potentiation mechanisms, which may relate to the poor spatial memory acquisition and retention in the aged rats. These age-related differences point to substantial changes in neuronal signal processing capabilities and local circuit function in the hippocampus as a function of aging.

Effect of light history on the rat retina: timecourse of morphological adaptation and readaptation

Sprague Dawley rats were born and raised under either 5 or 800 lux cyclic light (12L:12D) and were sacrificed at 1, 2, 3, 6, 12, 16, and 28 weeks of age. At each time point outer nuclear layer (ONL) area and rod outer segment (ROS) length were measured. The former is an estimation of photoreceptor number, and the latter is an estimation of the photon-catching integrity of the retina, both of which are known to be dependent on the light environment. Regression analysis revealed an ONL area reduction with time of 0.003 mm2/wk for 5-lux-reared rats and 0.009 mm2/wk for 800-lux-reared rats. ROS length was relatively constant in the dim light group, but showed a decline in 800 lux rats of 0.5 microns/wk. Rats moved from 800 to 5 lux at 9 and 21 wks of age showed no significant change in ONL area after 3 wks. ROS length in these rats increased at a prodigious rate, and in the 12-wk-olds (9 wks at 800 lux, followed by 3 wks at 5 lux), ROS length exceeded that of age-matched rats raised in 5 lux for life.

Dietary restriction does not alter retinal aging in the Fischer 344 rat

In the present study, the effects of long-term dietary restriction (60% of the calories in the ad lib diet, beginning at 16 weeks of age) on quantitative morphometric measures and histopathologic indications of aging have been investigated in the retina of Fischer 344 male rats. The animals were maintained by the NIA Biomarkers Program, National Center for Toxicological Research. Group size ranged from 8 to 15 rats. A gradual thinning of the outer nuclear layer (ONL) of photoreceptor nuclei occurred with aging in control ad lib groups. The restricted diet did not affect retinal aging in 18-, 21-, 26-, or 27-month-old rats, as judged by photoreceptor cell death, ONL thickness, and pattern of cell loss. Retinal thickness (RT) was unaffected by restricted diet, except in the 21-month-old group; in that group, the RT was reduced significantly in thickness as compared to ad lib animals. These results are in contrast to studies of dietary restriction on most nonneuronal markers of aging and suggest that a different mechanism may modulate at least some aspects of brain aging.

Water deprivation protects photoreceptors against light damage

Photoreceptor cell death after light-damage and during aging in rats is associated with the hormonal status of the animal, as well as other environmental and intrinsic factors. Restricted caloric intake extends the life of rodents and is usually accompanied by a reduction in water consumption. In this study, male and female rats were placed on restricted water intake for either 3 or 7 days to induce dehydration. Following exposure to damaging visible light, the retinas were evaluated for severity of damage and photoreceptor survival, heat shock (stress) protein (HSP) and total protein synthesis, and plasma arginine vasopressin (AVP) levels. Photoreceptor cells of 7-day, dehydrated male and female rats survived light-damage significantly better than those allowed water ad libitum; however, after 3 days of water restriction, only the male rats demonstrated protection from photodamage. Severity of photoreceptor damage could not be correlated with retinal HSP synthesis and content, although the latter was significantly reduced in dehydrated animals. Total retinal protein content and synthesis were unchanged by restricted water intake. AVP increased by 350% during the 7-day period of dehydration. Protection of photoreceptors from light-damage in this study may be correlated with osmotically stimulated changes in the retinas of dehydrated animals.

Scleral calcification and photoreceptor cell death during aging and exposure to chronic stress

Male and female Fischer 344 rats of three different ages (12, 18, and 25 months) have been examined for the presence of photoreceptor (PR) cell loss and for occurrence of scleral cartilage and bone formation. In addition, male and female rats, aged 11 months at the beginning of the experiments, were exposed to chronic stress for either 0.5, 2, 4, or 6 months. Photoreceptor cell death gradually increases during the aging process and is exacerbated by exposure to chronic stress. It is more severe in the peripheral than the central retina and exposure to stress increases this pattern of cell loss. The superior retina is more severely affected than the inferior hemisphere in aging and during stress. The incidence of scleral cartilage or bone formation increases with age in male and female rats, but with stress exposure an increase is seen in males only. Bone formations occur more frequently in male than in female animals and are almost always (97%) located in the superior hemisphere of the eye. Although there appears to be a direct relationship between photoreceptor cell death and the occurrence of scleral ossifications in group data, in individual eyes the bone formations are not always associated with severity of PR cell loss. The relationship of PR cell death and incidence of scleral ossification to gender and to exposure to stress supports a hypothesis for an endocrine basis of ocular aging.

Glucoregulatory responses of adult and aged rats after exposure to chronic stress

Stress has been implicated as an environmental factor that may accelerate the process of biological aging. However, this proposal has remained largely anecdotal due to relatively few studies that directly tested this hypothesis. In the present experiments groups of 6-month-old and 20-month-old male F-344 rats were chronically stressed for a six-month period. After the last stress session, when the animals were 12 months of age (adult) and 26 months of age (old), control and chronically stressed rats were tested for their ability to: (a) elicit glucose and insulin responses to an acute, novel stressor; (b) remove a circulatory glucose load elicited either by acute stress exposure or by injection of d-glucose; and (c) raise insulin levels after a glucose challenge. In control rats, we observed a deficit in each of these parameters in old compared to adult rats. Exposure to chronic stress did not exacerbate deterioration of these response mechanisms in either adult or old rats. In fact, the data showed a modest improvement in glucose tolerance in chronically stressed compared to age-matched control rats. We conclude that chronic stress did not exacerbate age-dependent decline of glucoregulatory capacity. From these results and from our earlier work, we speculate that the decline during aging of the functional integrity of systems involved in the response to stress may be sustained by periodic challenges from the organism's external environment.