Temat: neurogenesis - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Endocannabinoid system and cannabinoids in neurogenesis - new opportunities for neurological treatment? Reports from experimental studies
Autorzy:: Drab, Aleksandra
Zagaja, Mirosław
Haratym-Maj, Agnieszka
Łuszczki, Jarogniew Jacek
Andres-Mach, Marta
Powiązania:: https://bibliotekanauki.pl/articles/972633.pdf
Data publikacji:: 2017
Wydawca:: Instytut Medycyny Wsi
Tematy:: neurogenesis
cannabinoids
endocannabinoid system
Opis:: Neurogenesis is one of the most important phenomenona affecting human life. This process consists of proliferation, migration and differentiation of neuroblasts and synaptic integrations of newborn neurons. Proliferation of new cells continues into old age, also in humans, although the most extensive process of cell formation occurs during the prenatal period. It is possible to distinguish two regions in the brain responsible for neurogenesis: the dentate gyrus (DG) of the hippocampus and the sub-ventricular zone (SVZ). Hippocampal neurogenesis is very sensitive to various physiological and pathological stimuli. The functional integration of the newly-born dentate granule cells into hippocampal circuitry, and their ability to mediate long-term potentiation in DG, has led to the hypothesis that neurogenesis in the adult brain may play a key role in learning and memory function, as well as cognitive dysfunction in some diseases. Brain disorders, such as neurodegenerative diseases or traumatic brain injuries, significantly affect migration, proliferation and differentiation of neural cells. In searching for the best neurological drugs protecting neuronal cells, stimulating neurogenesis, while also developing no side-effects, endocannabinoids proved to be a strong group of substances having many beneficial properties. Therefore, the latest data is reviewed of the various experimental studies concerning the analysis of the most commonly studied cannabinoids and their impact on neurogenesis.
Źródło:: Journal of Pre-Clinical and Clinical Research; 2017, 11, 1; 76-80
1898-2395
Pojawia się w:: Journal of Pre-Clinical and Clinical Research
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Increased neurogenesis after ACEA and levetiracetam treatment in mouse pilocarpine model of epilepsy
Autorzy:: Zagaja, Mirosław
Szewczyk, Aleksandra
Haratym-Maj, Agnieszka
Rola, Radosław
Maj, Maciej
Łuszczki, Jarogniew J.
Anders-Mach, Marta
Powiązania:: https://bibliotekanauki.pl/articles/972512.pdf
Data publikacji:: 2017
Wydawca:: Instytut Medycyny Wsi
Tematy:: neurogenesis
neurons
astrocytes
pilocarpine
ACEA
Levetiracetam
Opis:: Introduction and objectives. The aim of the study was to asses the impact of long-term therapy with the second generation antiepileptic drug levetiracetam (LEV) with arachidonyl-2’-chloroethylamide (ACEA), a highly selective cannabinoid CB1 receptor agoniston the process of neurogenesis in a mouse pilocarpine model of epilepsy (PILO). Additionally, a relationship was established between the treatment with ACEA in combination with LEV, and hippocampal neurogenesis in mouse PILO brain. Materials and method. All experiments were performed on adolescent male CB57/BL mice injected i.p. with LEV (10 mg/kg), ACEA (10 mg/kg) and PMSF (30 mg/kg) (phenylmethylsulfonyl fluoride — a substance protecting ACEA against degradation by the fatty-acid amidohydrolase), pilocarpine (PILO, a single dose 290 mg/kg) and methylscopolamine (30 min before PILO to stop the peripheral cholinergic effects of the pilocarpine, 1 mg/kg). The process of neurogenesis was evaluated after10 days treatment with LEV and ACEA. Results. Obtained results indicated that the combinations of ACEA+PMSF+LEV and ACEA +PMSF increased the total number of total newborn cells compared to the control. Moreover, ACEA+PMSF administered alone and in combination with LEV had a significant impact on neurogenesis increasing the total number of newborn neurons compared to the control group. Neither LEV nor PMSF had a significant impact on the number of proliferating cells and newborn neurons when compared to the control PILO group. In turn, LEV administered alone decreased significantly the number of astrocytes. However, ACEA+PMSF has demonstrated significant increase of astrocytes compare to control mice. Conclusions. These data provide substantial evidence that the combination of LEV+ACEA significantly increases the level of newborn neurons in the PILO dentate subgranular zone.
Źródło:: Journal of Pre-Clinical and Clinical Research; 2017, 11, 2; 136-141
1898-2395
Pojawia się w:: Journal of Pre-Clinical and Clinical Research
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: Current views on neuroplasticity: what is new and what is old?
Autorzy:: Kaczmarek, Bożydar L.J
Powiązania:: https://bibliotekanauki.pl/articles/2106004.pdf
Data publikacji:: 2020-02-26
Wydawca:: Fundacja Edukacji Medycznej, Promocji Zdrowia, Sztuki i Kultury Ars Medica
Tematy:: research paradigms
neuroplasticity
glial plasticity
mental force
neurogenesis
Opis:: The main aim of the paper is to show that many previously forgotten discoveries within the field of neuroscience own their rediscovery and renaissance to the refinement of tools provided by the technological advances. Most spectacular is the advancement of brain imaging techniques, which provide hard data that support for evidence for previously neglected presumptions and ideas. Neuroplasticity is an example of such a long ignored historical discovery. One reason for that neglect is that it stood in contradiction to beliefs and theories prevailing at the first half of the twenties century. The idea of neuronal plasticity is not disputed any longer since it has found confirmation not only in a dramatic development of neuroimaging but also in the advancement of neurobiology. Most authors concentrate upon neuronal plasticity, recent studies, however, have produced a wealth of information regarding neurogenesis, in which astrocytes have proved to play a significant role. The significance of adult neurogenesis for learning and memory and for treatment of depression is outlined. Moreover, it was observed that neuroplasticity benefits patients suffering from obsessive-compulsive disorder (OCD) who undergo effective, evidence-based treatment. Convincing examples of brain plasticity brings also clinical practice, which often unveils the appearance of hitherto hidden artistic abilities in people who have suffered from brain damage. In addition, the possibilities of altering the brain functions by mental force alone are discussed. Thus, the paper reveals that many “controversial” ideas were confirmed by contemporary studies forcing changes in a traditional view on brain works.
Źródło:: Acta Neuropsychologica; 2020, 18(1); 1-14
1730-7503
2084-4298
Pojawia się w:: Acta Neuropsychologica
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 4.

Tytuł:: Neuroprotekcyjne właściwości związków pochodzenia roślinnego: triterpeny pentacykliczne
Neuroprotective properties of compounds of vegetable origin: pentacyclic triterpenes
Autorzy:: Orłowska-Majdak, Monika
Powiązania:: https://bibliotekanauki.pl/articles/944179.pdf
Data publikacji:: 2014
Wydawca:: Medical Communications
Tematy:: neurogenesis
neuroprotection
pentacyclic triterpenes
phytotherapy
synaptic plasticity
fitoterapia
neurogeneza
neuroprotekcja
plastyczność synaptyczna
triterpeny pentacykliczne
Opis:: The brain is a structure of great variability during the ontogenetic human life. In the first period of life, changes in its structure and activities are due to the processes of development and maturation. Then, due to the remarkable synaptic plasticity, individual brain centres adapt to the requirements of the environment in which the man lives, and his lifestyle. After the age of 40 years, apoptosis, the process of programmed cell death of neurons begins. In a state of disease, the process of necrosis or aponecrosis may cause additional destruction of neurons. The process of neurogenesis based on local or transplanted brain stem cells has a repairing effect in the damaged structures, but may be also associated with psychiatric and neurological diseases. Underlying processes of neuroprotection include antioxidant, anti-inflammatory, anti-apoptotic processes and antidestructive action of Ca. Phytotherapy based on compounds of plant origin has been found to have a supporting function in neuroprotection. In recent years, particular attention is paid to neuroprotective properties of pentacyclic triterpenes and their derivatives. The article presents neuroprotective properties of ursolic, oleanolic, maslinic, asiatic, betulinic, boswellic acid and triterpene saponins from Bupleurum and Panax ginseng. Ginseng saponins additionally increase neurogenesis in the brain. The possibility of using these triterpene compounds in the treatment of many neurological and psychiatric diseases has been suggested. However, it should be pointed out that the direction of their action may depend on the dosage, they may have a different effect on various types of neurons, and they can interact with other drugs used simultaneously. Most of the experiments using triterpenes were performed on animals or cell cultures. Further studies in humans are required to further determine triterpene effect in humans.
Ludzki mózg to struktura wykazująca ogromną zmienność w ciągu życia osobniczego. W pierwszym okresie zmiany budowy i czynności spowodowane są procesami rozwoju i dojrzewania. Następnie, dzięki niezwykłej plastyczności synaptycznej, poszczególne ośrodki mózgu przystosowują się do wymagań środowiska, w jakim człowiek funkcjonuje, i do stylu jego życia. Po 40. roku życia włącza się proces zaprogramowanej śmierci neuronów, czyli apoptozy, a w stanie choroby neurony mogą ginąć w procesie nekrozy lub aponekrozy. Neurogeneza na bazie miejscowych albo transplantowanych komórek macierzystych mózgu pełni funkcję naprawczą w powstałych uszkodzeniach, ale może także mieć związek z chorobami psychicznymi i neurologicznymi. U podstaw neuroprotekcji leżą procesy antyoksydacyjne, przeciwzapalne, antyapoptotyczne i przeciwdziałające destrukcyjnemu działaniu jonów wapnia. Wspierającą funkcję w działaniu neuroprotekcyjnym mogą mieć związki pochodzenia roślinnego, podawane w ramach fitoterapii. W ostatnich latach zwrócono uwagę na neuroprotekcyjne właściwości pentacyklicznych triterpenów i ich pochodnych. W pracy omówiono właściwości neuroprotekcyjne kwasu ursolowego, oleanolowego, maslinowego, asjatowego, betulinowego, bosweliowego oraz saponin triterpenowych pozyskiwanych z roślin Bupleurum i Panax ginseng. Saponiny ginseng dodatkowo nasilają neurogenezę w mózgu. Sugeruje się potencjał stosowania wymienionych związków w terapii wielu chorób neurologicznych i psychicznych – z kilkoma zastrzeżeniami: 1) kierunek działania może zależeć od dawki; 2) związki te mogą różnie działać na neurony różnych rodzajów; 3) mogą istnieć niekorzystne interakcje z innymi lekami stosowanymi równocześnie. Większość doświadczeń z użyciem triterpenów wykonano na zwierzętach bądź w hodowlach komórkowych, zagadnienie wymaga więc dalszych badań na ludziach.
Źródło:: Psychiatria i Psychologia Kliniczna; 2014, 14, 4; 284-289
1644-6313
2451-0645
Pojawia się w:: Psychiatria i Psychologia Kliniczna
Dostawca treści:: Biblioteka Nauki

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