Cell proliferation and neurogenesis alterations in Alzheimer’s disease and diabetes mellitus mixed murine models

Hierro-Bujalance, Carmen; Marco, Angel Del; Ramos-Rodríguez, Juan José; Infante-Garcia, Carmen; Gomez-Santos, Sara Bella; Herrera, Marta; García-Alloza, Mónica

doi:10.1111/jnc.14987

Cited by 13 publications

(7 citation statements)

References 77 publications

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“…Brain damage caused by neurological and vascular disorders or by traumatic injuries is tightly associated with an irreversible neuronal loss, which may lead to cognitive impairment, motor dysfunction, and even alterations of the personality. − Despite the physiological capacity of the adult brain to generate new neurons from neural stem cells (NSC) in the subventricular zone (SVZ) and the dentate gyrus (DG) of the hippocampus, neuronal replacement in damaged brain regions rarely occurs, complicating functional recovery. An association of alterations in neurogenesis with cognitive impairment has been described in mouse models of different metabolic and neurological disorders, , and it is generally accepted that increased neurogenesis leads to improve cognitive performance . Thus, this field demands the discovery of new drugs that regenerate damaged brain regions, facilitating functional recovery.…”

Section: Introductionmentioning

confidence: 99%

“…The phorbol-containing fraction (Fr4) was purified by open-column chromatography using hexane/EtOAc (30:70−0:100, v/v) to obtain four subfractions which were analyzed by UHPLC−HRMS, taking into account the results of mass spectroscopy of our synthetic phorbol 12,13-diesters. A compound isomeric to phorbol 12-phenylacetate-13isobutyrate (7) was detected in subfraction FR4-4 (58.1 mg), which was further chromatographed through analytic HPLC using Si-60 column and EtOAc/hexane (40% of EtOAc) as the solvent system. Finally, two compounds not described previously, 12-deoxy-16hydroxyphorbol 13-phenylacetate-16-isobutyrate (DPPI, 10, 1.0 mg, 0.0005%, 46.18 min) and 12-deoxy-16-hydroxyphorbol 13-phenylacetate-16-tigliate (DPPT, 11, 1.4 mg, 0.0007%, 51.1 min), were isolated.…”

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confidence: 99%

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Phorbol Diesters and 12-Deoxy-16-hydroxyphorbol 13,16-Diesters Induce TGFα Release and Adult Mouse Neurogenesis

et al. 2021

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A small library of phorbol 12,13-diesters bearing low lipophilicity ester chains was prepared as potential neurogenic agents in the adult brain. They were also used in a targeted UHPLC–HRMS screening of the latex of Euphorbia resinifera. Two new 12-deoxy-16-hydroxyphorbol 13,16-diesters were isolated, and their structures were deduced using two-dimensional NMR spectroscopy and NOE experiments. The ability of natural and synthetic compounds to stimulate transforming growth factor alpha (TFGα) release, to increase neural progenitor cell proliferation, and to stimulate neurogenesis was evaluated. All compounds that facilitated TGFα release promoted neural progenitor cell proliferation. The presence of two acyloxy moieties on the tigliane skeleton led to higher levels of activity, which decreased when a free hydroxyl group was at C-12. Remarkably, the compound bearing isobutyryloxy groups was the most potent on the TGFα assay and at inducing neural progenitor cell proliferation in vitro, also leading to enhanced neurogenesis in vivo when administered intranasally to mice.

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Section: Introductionmentioning

confidence: 99%

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confidence: 99%

Phorbol Diesters and 12-Deoxy-16-hydroxyphorbol 13,16-Diesters Induce TGFα Release and Adult Mouse Neurogenesis

et al. 2021

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“…Furthermore, previous studies conducted in mouse models showed that worse metabolic conditions correlate with lower rates of central cell proliferation, increased neurogenesis rates, and progress in cognitive impairment [65,66]. It has been observed that during youth, the body system tries to compensate the generation of new neurons in young mice, but this ability is diminished in adults and the elderly, especially in the presence of a dementia such as AD [67]. Human studies have shown a similar trend and suggest that obesity and AD share the same neurodegenerative mechanisms, promoting in turn, an acceleration of the degenerative process at the central level [68].…”

Section: Discussionmentioning

confidence: 99%

Poor Cognitive Agility Conservation in Obese Aging People

et al. 2023

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Life expectancy has been boosted in recent decades at expenses of increasing the age-associated diseases. Dementia, for its incidence, stands out among the pathologies associated with aging. The exacerbated cognitive deterioration disables people from carrying out their daily lives autonomously and this incidence increases exponentially after 65 years of age. The etiology of dementia is a miscellaneous combination of risk factors that restrain the quality of life of our elderly. In this sense, it has been established that some metabolic pathologies such as obesity and diabetes act as a risk factor for dementia development. In contrast, a high educational level, as well as moderate physical activity, have been shown to be protective factors against cognitive impairment and the development of dementia. In the present study, we have evaluated the metabolic composition of a population between 60–90 years old, mentally healthy and with high academic degrees. After assessing agility in mental state, we have established relationships between their cognitive abilities and their body composition. Our data support that excess body fat is associated with poorer maintenance of cognition, while higher percentages of muscle mass are associated with the best results in the cognitive tests.

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“…In animal models, it has been shown that an imbalance in insulin levels also impairs neurogenesis in early life [ 107 ], as well as in more mature and long-lived phases [ 37 ]. In addition, the coexistence of T2D with AD pathology reduces neurogenesis and thus neuronal replacement from stages prior to cognitive decline [ 126 ]. Insulin is also involved in the regulation of neuronal and synaptic functions in the hippocampus, cortex and cerebellum, protecting neurons from neurodegeneration and cell death [ 127 , 128 , 129 , 130 ].…”

Section: Link Between Diabetes Mellitus Alzheimer’s Disease and Vascu...mentioning

confidence: 99%

Physiological Mechanisms Inherent to Diabetes Involved in the Development of Dementia: Alzheimer’s Disease

Mohamed-Mohamed,

García-Morales,

Sánchez Lara

et al. 2023

Neurology International

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Type 2 diabetes mellitus (T2D) is a metabolic disease reaching pandemic levels worldwide. In parallel, Alzheimer’s disease (AD) and vascular dementia (VaD) are the two leading causes of dementia in an increasingly long-living Western society. Numerous epidemiological studies support the role of T2D as a risk factor for the development of dementia. However, few basic science studies have focused on the possible mechanisms involved in this relationship. On the other hand, this review of the literature also aims to explore the relationship between T2D, AD and VaD. The data found show that there are several alterations in the central nervous system that may be promoting the development of T2D. In addition, there are some mechanisms by which T2D may contribute to the development of neurodegenerative diseases such as AD or VaD.

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Cell proliferation and neurogenesis alterations in Alzheimer’s disease and diabetes mellitus mixed murine models

Cited by 13 publications

References 77 publications

Phorbol Diesters and 12-Deoxy-16-hydroxyphorbol 13,16-Diesters Induce TGFα Release and Adult Mouse Neurogenesis

Phorbol Diesters and 12-Deoxy-16-hydroxyphorbol 13,16-Diesters Induce TGFα Release and Adult Mouse Neurogenesis

Poor Cognitive Agility Conservation in Obese Aging People

Physiological Mechanisms Inherent to Diabetes Involved in the Development of Dementia: Alzheimer’s Disease

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