Abstract
Normal aging is associated with vasopressin neuron adaptation, but little is known about its effects on the release of apelin, an aquaretic peptide colocalized with vasopressin. We found that plasma vasopressin concentrations were higher and plasma apelin concentrations lower in aged rats than in younger adults. The response of AVP/apelin neurons to osmotic challenge was impaired in aged rats. The overactivity of vasopressin neurons was sustained partly by the increased expression of Transient receptor potential vanilloid2 (Trpv2), because central Trpv blocker injection reversed the age-induced increase in plasma vasopressin concentration without modifying plasma apelin concentration. The morphofunctional plasticity of the supraoptic nucleus neuron-astrocyte network normally observed during chronic dehydration in adults appeared to be impaired in aged rats as well. IL-6 overproduction by astrocytes and low-grade microglial neuroinflammation may contribute to the modification of neuronal functioning during aging. Indeed, central treatment with antibodies against IL-6 decreased plasma vasopressin levels and increased plasma apelin concentration toward the values observed in younger adults. Conversely, minocycline treatment (inhibiting microglial metabolism) did not affect plasma vasopressin concentration, but increased plasma apelin concentration toward control values for younger adults. This study is the first to demonstrate dual vasopressin/apelin adaptation mediated by inflammatory molecules and neuronal Trpv2, during aging.
Highlights
Individuals have a higher risk of becoming dehydrated than younger adults
We investigated the potential role of IL-6 overproduction by astrocytes [15] in the alteration of neuronal and astrocyte crosstalk in aged rats, by assessing the effect of a central injection of IL-6 antibody (IL-6 Ab) on the morphofunctional status of AVP neurons and astrocytes, and on the functionality of AVP neurons, as attested by plasma AVP concentration
This activation occurred in the absence of a significant change in plasma osmolality, because the mean plasma osmolality values obtained for aged rats (303.468.8 mosmol/l, n = 16) were similar to those previously measured for adult rats in our experimental conditions (302, 262.3 mosmol/l, n = 35)
Summary
Individuals have a higher risk of becoming dehydrated than younger adults. Both lower levels of liquid intake and greater liquid losses contribute to dehydration in the elderly [1,2]. Aging is accompanied by changes in AVP neuron activity, leading to an increase in the size of AVP-producing perikarya [10,11], nucleoli [12] and Golgi apparatus [13,14], high levels of c-fos messenger ribonucleic acid (mRNA) and high plasma AVP concentrations in aged animals [15]. This state of hyperactivation results in an increase in plasma AVP concentration [11]. No data are yet available concerning the release of apelin into the bloodstream during aging in euhydrated or dehydrated rats, and the molecular mechanisms responsible for changes in AVP/apelin neuron activity remain unknown
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