INVESTIGATING THE MODULATION OF VOLTAGE-GATED SODIUM CHANNEL NAV1.1 NEURONAL EXCITABILITY BY FIBROBLAST GROWTH FACTOR HOMOLOGOUS FACTOR 2 AND IL-6

Ashley Marie Frazee (17483721)

03 January 2024

<p dir="ltr">Migraine is a condition that has affected many for generations and yet remains poorly understood. Mutations to the Na_v1.1 voltage gated sodium channels have been implicated in various diseases such as Familial Hemiplegic Migraine 3 (FHM3), epilepsy, and autism spectrum disorder (ASD). Various proteins have been found to modify the function of these channels. Fibroblast growth factor homologous factors (FHFs) have been found to regulate the activity of some voltage-gated sodium channels (Na_vs). More work is needed to determine which FHFs affect which Na_vs. Here I looked at FHF2A and FHF2B in Nav1.1 as well as an FHM3-causing mutation to this channel, F1774S. I found that FHF2A, but not 2B, induced long-term inactivation (LTI) in the wild-type (WT) Nav1.1 and that FHF2A induced LTI in the F1774S mutant channel to a greater extent. Several changes in channel function caused by the mutation were attenuated with the addition of FHF2A, including persistent currents, leading to a possible rescue in the mutant phenotype. By contrast, the P1894L mutation, which has been found to cause ASD, greatly attenuated LTI and other impacts of FHF2A on Nav1.1. The inflammatory cytokine IL-6 was also investigated as a possible modulator of the Na_v1.1 channel. There does not appear to be any direct interaction between this cytokine and the channel. Overall, my data shows for the first time that FHF2A, but FHF2B or IL-6, might be a significant modulator of Nav1.1 and can differentially modulate disease mutations.</p>

Neurosciences not elsewhere classified

FHF group

voltage-gated Na+ currents

Avaliação da Atividade Antileishmania da Spiranthera odoratissima ST. Hil (Rutaceae) in vitro, in vivo e in silico

Santos, Rogerio Alexandre Nunes dos

02 March 2015

Made available in DSpace on 2015-05-14T13:00:09Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1776418 bytes, checksum: 744ac3ac5030bc552fceb05b70d06ca5 (MD5) Previous issue date: 2015-03-02 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Leishmaniasis is one of the neglected diseases. High cost, systemic toxicity, and diminished efficacy due to development of resistance by the parasites has a negative impact on the current treatment options. Thus, the search for a new, effective and safer antileishmanial drug becomes of paramount importance. Compounds derived from natural products may be a better and cheaper source in this regard. This study evaluated the in vitro, in vivo and in silico antileishmanial activity of Spiranthera odoratíssima (Rutaceae) fractions and isolated compounds, using promastigote and amastigote forms of different Leishmania species. J774 A.1 macrophage was used as the parasite host cell for the in vitro assays. Evaluations of cytoxicity, nitric oxide (NO), interleukin-10, interleukin-12, IFN-γ were obtained in vitro and expression of p38 mitogen activated protein kinase (p38 MAPK), NF-κB (p50 and p65) was studied by western blotting.in vivo and in silico analysis were carried out. In vitro experiments showed that the fruit hexanic fraction (Fhf) and its alkaloid skimmianine (Skm) have a significant (P<0·001) effect against L. braziliensis. This anti-L. braziliensis activity of Fhf and Skm was due to increased production of NO and attenuation of IL-10 production in the macrophages in contrast of IL-12 and IFN-γ levels increased at concentrations ranging from 1·6 to 40·0 μg/ml. Fhf and Skm showed expression of p38 and NF-κB, pathways involved in the production of Th1 cytokines and nitric oxide. In vivo testing showed reduction in lesion size in mice infected with L. braziliensis, as well as reduction in parasite burden in linfonode and spleen. The in silico assay demonstrated significant interaction between Skm and amino acid residues of NOS2.Skm is thus a promising drug candidate for L. braziliensis due to its potent immunomodulatory activity. / A leishmaniose é uma doença negligenciada cujo tratamento disponibilizado está associado a uma série de efeitos tóxicos, alto custo e diminuição da eficácia terapêutica devido ao aumento da resistência pelos parasitas. Assim, a pesquisa de novas drogas mais eficazes e seguras torna-se de grande importância. Compostos derivados de produtos naturais pode ser uma fonte mais eficaz e econômica para o tratamento desta parasitose. Este estudo avaliou a atividade leishmanicida da espécie Spiranthera odoratíssima (Rutaceae) testando suas frações e isolados in vitro, in vivo e in silico utilizando formas promastigota e amastigota de diferentes espécies de Leishmania em macrófagos J774 A.1. Os ensaios in vitro avaliaram citotoxicidade, produção de óxido nítrico (NO), produção de citocinas interleucina 10, interleucina 12 e IFN-γ. A expressão da proteína quinase p38 ativada por mitógeno (p38 MAPK) e NF-κB (p50 e p65) foi avaliada in vitro por western blotting. Os resultados observados in vitro da fração hexânica do fruto (Fhf) e seu alcaloide isolado esquimianina (Skm) demostraram uma significante ação leishmanicida (P<0·001) contra L. braziliensis. Esta ação foi associada ao aumento da produção de óxido nítrico e diminuição de IL-10 em macrófagos assim como aumento da produção de citocinas Th1 como Il-12 e IFNγ para as concentrações estabelecidas entre 1.6 a 40 μg/ml. Fhf e Skm demostraram induzir a expressão de p38 e NFκB, vias estas envolvidas na produção de citocinas Th1 e na indução de óxido nítrico. Os ensaios in vivo demostraram reduzir lesão em camundongos Swiss infectados com L. braziliensis, assim como foi reduzido à carga parasitária em linfonodos e baço destes animais. O ensaio in silico demonstrou interação significativa entre Skm e resíduos de aminoácidos de NOS-II. Estes resultados em conjunto sugerem que o alcaloide esquimianina é um candidato promissor contra L. braziliensis devido sua potente atividade imunomoduladora.

Spiranthera odoratíssima (Rutaceae)

Efeito leishmanicida

Esquimianina

NOS-II

Atividade imunomoduladora

Spiranthera odoratíssima (Rutaceae)

Leishmanicidal effect

Skimmianine

Fhf

NOS-II

Immunomodulatory activity

CIENCIAS BIOLOGICAS::FARMACOLOGIA