ABSTRACT
BACKGROUND: Alzheimer's disease (AD) is the most common and irreversible neurodegenerative disorder, and amyloid peptide plays a central role in its pathogenesis. Physical training contributes as a beneficial adaptation to AD. However, these effects may be underestimated because much of the literature used fixed training prescription variables (intensity and volume) throughout the protocol. Moreover, researchers poorly understand whether chronic high-intensity interval training (HIIT) exerts similar effects on the brain tissue of individuals with AD. OBJECTIVE: This study evaluated the effect of 8 minutes of HIIT with incremental overload in an AD model. METHODS: Forty male Wistar rats were divided into four groups: an untrained Sham group, Sham trained group, Aß1-42 (Alzheimer's) untrained group, and Aß1-42 (Alzheimer's) trained group (n=10 rats per group). Animals underwent stereotactic surgery and received a hippocampal injection of Aß1-42 or a saline solution. Seven days after surgery, two weeks of treadmill adaptation followed by a maximal running test (MRT) was performed. Then, animals were subjected to eight weeks of HIIT. Rats were sacrificed 24 h after the behavioral tests (open field and Morris water maze), hippocampal tissue was extracted to analyze the redox balance and BDNF/TrkB pathway, and neuritic plaques (NP) were detected by evaluating silver impregnation. RESULTS: The AD trained group presented a physical capacity amelioration every two weeks and locomotor, learning, and memory improvements (p<0.05). These effects were accompanied by increased CAT and SOD levels, followed by decreased lipid peroxidation (p<0.05). Furthermore, increased activation of the BDNF/TrkB (p<0.05) pathway and decreased NP was observed. CONCLUSION: Based on these results, MRT was essential for an excellent chronic training protocol prescription and overload adjustment. Therefore, 8 minutes of HIIT daily for 8 weeks may reduce behavioral deficits by promoting a positive redox balance and increased activity of the BDNF/TrkB pathway that may contribute to NP attenuation.
Subject(s)
Alzheimer Disease/metabolism , Amyloid beta-Peptides/metabolism , High-Intensity Interval Training , Hippocampus , Neuroprotection , Peptide Fragments/metabolism , Physical Conditioning, Animal , Animals , Learning , Male , Memory/physiology , Rats , Rats, WistarABSTRACT
Crotalaria retusa é uma planta encontrada no Nordeste brasileiro, pertence ao gênero Crotalaria e à família Leguminosae, e possuem mais de seissentas espécies no mundo e mais de quarenta no Brasil. As variedades tóxicas mais conhecidas são C. spectabilis, C. crispata, C. retusa, C. dura e C. globifera. Plantas do gênero Crotalaria são de interesse porque são usadas na medicina popular. Esses gêneros são ricos em alcaloides pirrolizidínicos (AP), que são as principais toxinas e apresentam efeitos pneumotóxicos, nefrotóxicos, cardiotóxicos, fetotóxicos, carcinogênicos, inflamação, hemorragia e fibrose. A monocrotalina é o principal alcaloide pirrolizidínico encontrado nessas plantas e é ativamente oxidada in vivo pelo citocromo P450 no fígado, formando intermediários altamente reativos tipo pirrólicos que são responsáveis pela ligação cruzada do DNA-DNA e DNA-proteína. O presente trabalho teve como objetivo fazer um levantamento bibliográfico via internet, utilizando bancos de dados, programas de pesquisa científica e pesquisa em livros relacionados, acerca da atividade farmacológica e do mecanismo de ação da monocrotalina extraída de plantas do gênero Crotalaria, ressaltando desde os aspectos botânicos da planta, estrutura química dos alcaloides pirrolizidínicos, exemplos experimentais de toxicidade e provável mecanismo de ação.
Crotalia retusa is a plant found in Brazilian Northeast and belongs to the genus Crotalaria and the family Leguminosae, which comprises more than 600 species throughout the world and more than forty in Brazil. The most known toxic species are C. spectabilis, C. crispata, C. retusa, C. dura and C. globifera. Plants of the Crotalaria genus are of great interest because they are used by humans for folk medicine. These plants are rich in pyrrolizidine alkaloids (PA), which are the main toxins that cause effects such as pneumotoxic, nefrotoxic, cardiotoxic, fetotoxic, carcinogenic, inflammation, hemorrhage and fibrosis. Monocrotaline is the main pirrolizidinic alkaloid found in plants and is actively oxidated in vivo by the cytochrome P450 in the liver, yielding highly reactive pyrrolic type intermediates, which are responsible for DNA-DNA and DNA-protein cross-links reaction. The aim of this work is to make a bibliographic survey via internet, using databases, scientific research programs and related books, about pharmacological activity and mechanism of action of monocrotaline extracted from plants of Crotalaria genus, emphasizing plant botanical aspects, chemical structure of pirrolizidinic alkaloid, experimental examples of toxicity and probable action mechanism.
