Age-dependent decrease of beta-adrenoceptor density in the submandibular glands of mice and its modulation by the thymus

Insulin receptors in mouse brain: Reversibility of age-related impairments by a thymic extract

Recently, we have shown that insulin receptors (InsRs) in the brain undergo impairments with aging. Interestingly, age-related alterations of brain InsRs, are not irreparable as thymus grafts are able to recover them. With the present study we verified the possibility that an aqueous extract from calf thymus (TME) can mimic the restoring action of age-related impairments induced by thymus graft. InsR characteristics were assayed in a group of 25 months old BALB/c-nu mice treated with TME: 2μg/g body weight every third day, for total five subcutaneous injections. The last dose was injected the day before animals were killed. Other two groups of young (4 months) and old (25 months) mice received saline solution with the same schedule. A two-sites model analysis of receptor data confirms the age-dependent decrease of InsR number and kd previously observed in the high affinity population. Furthermore, a statistically significant recovery of number impairment is shown in TME-treated animals. On the contrary, the characteristics of the low affinity receptor subset show no statistically significant differences among the three animal models studied. TME induced recovery of the age-related changes found in brain InsRs, together with previously observed regulatory action of the same thymic extract on the adrenergic system, suggest that thymic gland does not necessarily have to mutually interact with other controlling systems for maintaining or recoving homeostasis of the complex neuroendocrine network during development and aging.

Insulin receptors in the brain cortex of aging mice

The aim of the present study was to analyze whether aging also affects central insulin receptors in brain cortex as it does in whole brain of BALB/c-nu mice. Results showed statistically significant decrease of number and increase of affinity of insulin high affinity binding sites in old animals. As a consequence, central insulin actions, among which neuromodulation of monoaminergic system, can result altered during aging.

Insulin receptors in mouse brain: age-related modifications are corrected by thymus graft

Recently, we have shown that insulin receptors (InsRs) in the brain undergo impairment with aging, as happens for other receptors such as alpha- and beta-adrenoceptors. Age-related alterations of adrenoceptors, which are modulated by brain InsRs, are not definitive as they can be recovered by a thymus graft. In this study we verified the possibility that the thymus graft can also recover the age-dependent modifications of brain InsRs. InsR characteristics were assayed in a group of 27 months old Balb/c-nu mice grafted with a neonatal thymus, under renal capsule, one month before the animals were killed. Another two groups of young (3 months) and old (27 months) mice were used as controls. A two-sites model analysis of receptor data confirmed the age-dependent decrease of InsR density previously observed in the high affinity population. Furthermore, a statistically significant recovery of this impairment was shown in thymus grafted animals. The low affinity receptor subset also showed some differences among the three animal models; however, they were not statistically significant. Thymus graft induced recovery of the age-related changes found in brain InsRs, together with the similar one observed on the adrenergic system, calls for deeper studies of their interaction and the role they can play on aging processes.

Relationship between cAMP production and protein secretion in rat submandibular acini: evidence for loss of reserve capacity with age

We assessed isoproterenol and forskolin-stimulated cAMP production and protein secretion in submandibular salivary glands from young (4-7 mo) and old (25 mo) male F-344 rats. In senescent acini, the maximum amount of cAMP produced was three-fold less and the protein secreted was one-third less in response to the highest dose of isoproterenol (100 microM). Following isoproterenol stimulation, the young acini were more sensitive than the old for protein secretion than for cAMP production. Post-receptor stimulation (by forskolin) of cAMP production and protein secretion were less in the senescent rats. This report demonstrates the validity of an in vitro model for simultaneous assessment of biochemical and functional correlates. Furthermore, the observations suggest that both receptor and post-receptor stimulation of cAMP production and protein secretion diminish with age. Moreover, there is a reserve capacity for cAMP production with respect to protein secretion in the young that is diminished or even absent in the old rats.

Parallel decrease of adenylyl cyclase activity and β1-adrenoceptor density in brain cortex of aging mice

Beta-adrenergic receptors (betaARs) and adenylyl cyclase (AC) activity have been found to undergo progressive alterations in the brain cortex of aging mice. In particular, betaAR changes are in charge of the beta1 subpopulation (beta1AR), beta2-adrenoceptors (beta2ARs) showing no age-related impairments. On these bases, the question arises whether AC alterations can be accounted for by beta1AR changes or, alternatively, whether there are also receptor independent AC modifications. Experiments have thus been performed on the brain cortex from young and old mice assaying beta1AR and beta2AR characteristics and isoproterenol (IPR) and forskolin stimulated AC activity in the same membrane preparations. Other membranes were previously treated with the reducing agent dithiothreitol (DTT) which is known to specifically destroy the binding capacity of beta1ARs. No statistically significant differences in basal AC activity have been found among the groups studied. Data on IPR-stimulated AC activity in old animals confirm previous findings demonstrating impaired responsiveness when compared with that of young mice. DTT treated membrane preparations from both young and old mice show decreased AC activities. The entity of the decrease is lower in aged animals due to the lower initial level of beta1ARs. Forskolin stimulation, which is assumed to directly activate AC, has been found impaired in aged mice when compared with young animals, suggesting that also post-receptor alterations occur with advancing age.

Age-related alterations of isoproterenol-stimulated adenylyl-cyclase activity are partially corrected by thymic graft

Previous experimental results have demonstrated progressive impairments in beta-adrenergic responsiveness with advancing age. Beta-adrenoceptors are involved in the alterations as their density progressively decreases during aging. Alterations in both in vivo responsiveness and receptor density are corrected by neonatal thymic grafts. In the present paper adenylyl-cyclase (AC) activity has been studied in the same animal models used before. Results show that no statistically significant changes can be observed when AC is assayed in absence of beta-adrenergic stimulation. On the contrary, when assayed after Isoproterenol stimulation, AC activity shows a shift of the peak and a decrease of its height in aged animals. A neonatal thymus grafted into old recipients one month before the experiment was performed, is capable of correcting the altered height of the peak but not the peak concentration.

A biochemical analysis of parotid and submandibular salivary gland function with age after simultaneous stimulation with pilocarpine and isoproterenol in female NIA Fischer 344 rats

This analysis of physiological, biochemical and molecular changes related to aging was made in 3-, 12- and 24-month-old rats. The salivary gland weight/body weight ratio and the structural membrane proteins did not change with age for either gland, but a significant age-related decline in DNA synthesis for both glands was detected, unrelated to the hormonal responsiveness at the level of the plasma membrane. There was a marked increase in the concentration of soluble proteins in adolescent parotid gland and, for the two older age groups, in submandibular gland. The saliva flow rate was different when expressed as volume per time, as volume per time and g glandular wet weight, and/or kg body weight. The concentration of secreted proteins was not affected by age in either gland. The total amount of proteins secreted over 30 min revealed no age-related perturbation for the parotid gland, but showed a significant age-related increase in submandibular saliva. Sodium dodecyl sulphate-polyacrylamide gel analysis revealed changes in the protein bands between 39 and 50 kDa in the Coomassie blue-stained gels from 12-month-old animals. Amylase showed an initial increase (12 months), followed by a marked decline in its activity in parotid saliva. The glandular supernatant had low residual cellular amylase activity after stimulation. Therefore, secretory impairment with age after pilocarpine-isoproterenol stimulation was excluded. Analysis of total RNA showed a pronounced decrease of amylase mRNA in the parotid gland between 12 and 24 months of age. No amylase mRNA was expressed in any of the submandibular samples. For epidermal growth factor, total saliva showed a decrease with age. It seemed that the submandibular gland followed the same picture with age as the parotid gland, with a specific decline in the biosynthesis of single secretory proteins.

Thymus-induced recovery of age-related decrease of brain cortex alpha- and beta-adrenoceptors

It has previously been demonstrated that thymus exerts a regulatory influence on beta-adrenergic system during aging. In particular, it has been shown that thymus can correct the beta-adrenoceptor density decrease in old mice. In the present paper results of experiments are reported dealing with the influence of the thymus on alpha-adrenoceptors of mouse brain cortex. Both subtypes of alpha-adrenoceptors are studied separately, using different labelled ligands. Results show that alpha 1-adrenoceptor density decreases in old animals, while alpha 2-adrenoceptor density does not change significantly. A neonatal thymus grafted into old recipients is capable of correcting the alteration observed in old mice. The differential impairment of alpha-adrenoceptors resembles that one previously observed on beta-adrenoceptors, where beta 1-type decreases in number during aging with a parallel decrease of adenylyl-cyclase activity, while beta 2-type remains unchanged.

Functional interrelationships in aging processes: alterations and reversibility

The problem of assessing the relevance of the reversibility of age-related functional alterations for aging studies has been presented. Transduction mechanisms of adrenergic stimulation have been chosen as the target of age-related changes and thymus as the effector of some corrective interventions performed at advanced age. Both alterations of adrenoceptor characteristics and their reversibility have been reviewed. beta-adrenoceptors have been studied in organs bearing only one subtype of receptors or both, revealing an age-related decrease in density only in the beta1-subtype. It has been shown that a similar age-related decrease is present in alpha1-adrenoceptor density. Such alterations are corrected by grafting a neonatal thymus into old mice. On the contrary, thymus fails to correct the alteration of T4-induced upregulation of beta-adrenoceptors indicating some limits to its corrective effect when the net of functional interrelationships becomes relatively complex. Both failures and successes of thymic grafts and thymic extracts in reversing age-related changes are discussed taking into account the effects induced on the life span of the animals. Different unsolved problems stemming from the previous considerations are also presented. Among them the controversial question about linearity and non-linearity of biological parameters presumed to be good indices of aging is discussed, with the aid of a simple model as a schematic example.

Food restriction in female Wistar rats. II. β-adrenoceptor density in the cerebellum and in the splenic lymphocytes

The effect of diet restriction, applied on an every-other-day schedule from 3.5 months of age on, has been investigated on the beta-adrenoceptor density in the cerebellum and in the splenic lymphocytes of old female Wistar rats. Comparing animals 6 months and 24 months old fed ad libitum, a 75% age-dependent reduction in specific binding of the agonist dihydroalprenolol was observed in cerebellar membrane preparations, while the beta-adrenoceptor density of lymphocytes remained unaltered. Diet restriction induced a partial recovery of the age-related decrease of this parameter in the cerebellum without affecting the receptor density of lymphocytes. Present results suggest that undernutrition delays the appearance of those alterations related to aging.

Ageing and thymus-induced differential regulation of beta 1 and beta 2 adrenoceptors of mouse brain cortex

Two questions have been addressed by the present paper, that is, the differential influence of age on beta 1 and beta 2 receptors and the thymus-induced recovery of such changes in receptor density and affinity have been assayed in brain cortex of Balb/c-nu mice of different ages. Results have shown a progressive decrease of beta 1 receptor density with advancing age, while no statistically significant changes were observed in beta 2 receptor density. Receptor affinity did not show any changes among the various groups examined. The influence of the thymus on receptor characteristics has been studied comparing young, old and thymus-grafted old mice. Total receptor density, which is decreased in old animals, can be up-regulated by thymus graft in old recipients. Interestingly, such a corrective effect is exerted only on the beta 1 population, the beta 2 receptor not being significantly affected. Thymic graft, therefore, acts just on the population which is found altered during ageing.

Impaired adaptive receptor regulation: an index of aging?

Many neuroendocrine functions are altered in old animals and their study may represent important steps in the understanding of the mechanisms of aging. A deeper insight, however, can be achieved by investigating the responsiveness to stimuli, which may reveal alterations not evident in the unstimulated conditions. At this level of study, many of such impairments have been found to be caused by receptor changes. In the present paper a third level of study is suggested in order to gain evidence of some remote failure of adaptive processes strictly linked to intimate mechanisms of aging. As at the second level of study different receptor characteristics can frequently be found at the basis of age-related alterations of biological responsiveness, at the proposed third level altered capacity of receptor regulation may be hypothesized as responsible for altered cell adaptation following hormone and drug stimuli. Experimental data are given which support this view. The possibility that receptor regulation may be used as an index of aging is suggested. This hypothesis leads to the problem of judging the validity of biological parameters deputed to represent good indices of aging. In order to solve this problem, the potential use of a mathematical model of mortality kinetics is discussed.

Thymic regulation of brain cortex beta-adrenoceptors during development and aging

The influence of the thymus on beta-adrenoceptors has been studied in the brain cortex of mice during developing and aging. Affinity of beta-adrenoceptors shows no statistically significant changes in the various animal models investigated. Receptor density shows a fall in both athymic nude mice and in old normal mice. Receptor density, in particular, decreases progressively with advancing age. It has been demonstrated that thymus exerts a regulatory role in both development and aging, as a neonatal thymic graft is capable of reversing the receptor impairments found in young athymic nude mice and in old normal mice.

Centrophenoxine-induced increase of beta-adrenoceptor density in brain cortex of old mice

The influence of centrophenoxine treatment on beta-adrenoceptor density has been studied in the brain cortex of old mice. One group of 21-mth-old mice was injected intraperitoneally with 3.8 mg/day centrophenoxine daily for 5 days. A second group received the same daily treatment for 40 days. Two other groups of untreated mice of the same age served as controls. Receptor affinity showed no statistically significant changes in the four different groups investigated. As regards the receptor density, an increasing trend has been elicited between the 5-day treated mice and their controls; however, the increase was not statistically significant. The second group of old mice treated with centrophenoxine for 40 days exhibited a statistically significant increase in receptor density when compared with untreated animals. The modulation of beta-adrenoceptor density may be explained as the result of either a direct action on synaptic structure or an indirect effect mediated by thyroid hormones.