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Some decades ago, the pineal gland was overly mythologized by those interested in intervening in the aging processes, a lot of pseudoscience verging into mysticism. Nonetheless, the pineal gland is important component of the endocrine system, and its functions decline with age. Like the thymus and lymph nodes, the pineal gland becomes structurally disrupted with advancing age, and that is the primary focus of the paper noted here. The researchers seek to categorize this disruption and its relationship with the astrocyte population resident in the pineal gland.

The pineal gland (PG) is an endocrine organ in the brain, primarily composed of pinealocytes (about 95% of the cells); the rest are mainly astrocytes and microglia embedded in a network of blood vessels and nerve fibers. Pinealocytes produce melatonin, which plays an important role in the human body. Numerous studies state changes in the human PG as a result of aging and some neurodegenerative and mental pathologies. A relatively understudied issue is the alteration of the lobular structural organization of the human PG and its potential impact on glandular function.

By analyzing the lobular structure and astrocytic network of the human PG, we have identified two apparently distinct pathways of normal aging. In the first one, an increase in the number of astrocytes within the pineal parenchyma is observed, suggesting a partial compensatory role for astrocytes in maintaining pinealocyte function. In the second pathway, disruption of the lobular architecture appears to result in astrocytic atrophy and a decline in the functional integrity of all pineal components. These observations may explain our findings that the combination of a disrupted lobular structure and a light astrocytic network is the most common pattern, whereas the dense astrocytic network variant is found exclusively in structurally intact lobules of older individuals. Notably, the lobular organization of the pineal gland itself is highly variable and, apart from a slight tendency towards structural disruption with age, does not show a strong age-related pattern.

Another indicator of pineal degeneration is the presence of glial cysts, which are commonly observed in the pineal gland across the examined age range. Although typically asymptomatic, these cysts can significantly reduce the volume of the functional parenchyma. Notably, they are most commonly associated with the above-mentioned combination of a disrupted lobular structure and a light astrocytic network. Based on our findings, we propose that pathological conditions may contribute to structural degeneration of the pineal gland and a subsequent decline in melatonin production; however, normal aging appears to be the primary driver of this process.

Link: https://doi.org/10.3390/ijms27073093

View the full article at FightAging