Badanie genów związanych z autophagiąi infiltracją immunologiczną w tkance hipokampa u pacjentów z padaczką skroniową
Exploratory Analysis of Autophagy-related Genes and Immune Infiltration in Human Hippocampal Tissue of Temporal Lobe Epilepsy
W skrócie
Badacze analizowali geny odpowiadające za proces czyszczenia komórkowego (autofagię) w mózgu pacjentów z padaczką skroniową, czyli najczęstszą postacią padaczki. Odkryli osiem kluczowych genów, które mogą być powiązane z zaburzeniami odpornościowymi w mózgu chorych na tę chorobę. Badanie sugeruje, że zmiany w tych genach i zapalenie mogą odgrywać rolę w rozwoju padaczki skroniowej, ale potrzebne są dalsze badania potwierdzające te wyniki.
Oryginalny abstract (angielski)
Epilepsy results from an imbalance between excitation and inhibition of neurons, with 30-40% of cases being temporal lobe epilepsy (TLE). This study aimed to prioritize autophagy-related genes and explore their potential links to immune features in human hippocampal tissue of TLE. Two hippocampal transcriptomic datasets (GSE202101 and GSE11882) were analyzed to identify autophagy-related differentially expressed genes (ARDEGs). Functional enrichment, regulatory network, and immune cell infiltration analyses were performed. LASSO regression and consensus clustering were applied. Exploratory assessment of the candidate gene signature was conducted in an independent dataset (GSE256068). Immunohistochemistry (IHC) on clinical specimens assessed protein expression of candidate signature genes. An eight‑gene candidate signature was derived, and subsequent PPI network analysis revealed LARP1, EIF4G1, and TSC2 as hub genes among them. Exploratory assessment in an independent dataset partially replicated the expression patterns of PYCARD, EIF4G1, and TSC2, whereas LARP1 showed an opposite expression trend; overall model performance remained modest. Increased activated mast cells were observed in TLE samples, while higher levels of plasma cells, CD8⁺ T cells, and regulatory T cells were observed in controls. Two exploratory clusters with distinct immune correlation patterns were identified. IHC showed upregulation of ABL1, TSC2, and SPP1 protein levels in TLE tissue. This study prioritizes a set of autophagy-related candidate genes in human hippocampal tissue and provides an exploratory framework linking them to local immune features in TLE. Further validation in larger independent cohorts is warranted before any clinical interpretation.