Imagine you’re exploring a mysterious island and stumble upon two hidden caves. You suspect there might be a secret connection between them, and with the help of a clever map, you set out to uncover the genetic links between Parkinson’s disease (PD) and periodontitis. By analyzing gene expression data from PD patients and periodontitis patients, scientists discover 37 overlapping genes that act as crosstalk biomarkers for both diseases. These biomarkers provide valuable insight into the shared genetic mechanisms underlying PD and periodontitis. Through further analysis, five ‘hub’ genes are identified: FMNL1, MANSC1, PLAUR, RNASE6, and TCIRG1. These genes play a crucial role in regulating immune responses and demonstrate a close correlation with immune cells involved in both diseases. This suggests that immunology plays an important role in linking PD and periodontitis. The research provides exciting new avenues for understanding the interplay between these two conditions and may pave the way for novel therapeutic strategies.

ObjectiveTo identify the genetic linkage mechanisms underlying Parkinson’s disease (PD) and periodontitis, and explore the role of immunology in the crosstalk between both these diseases.MethodsThe gene expression omnibus (GEO) datasets associated with whole blood tissue of PD patients and gingival tissue of periodontitis patients were obtained. Then, differential expression analysis was performed to identify the differentially expressed genes (DEGs) deregulated in both diseases, which were defined as crosstalk genes. Inflammatory response-related genes (IRRGs) were downloaded from the MSigDB database and used for dividing case samples of both diseases into different clusters using k-means cluster analysis. Feature selection was performed using the LASSO model. Thus, the hub crosstalk genes were identified. Next, the crosstalk IRRGs were selected and Pearson correlation coefficient analysis was applied to investigate the correlation between hub crosstalk genes and hub IRRGs. Additionally, immune infiltration analysis was performed to examine the enrichment of immune cells in both diseases. The correlation between hub crosstalk genes and highly enriched immune cells was also investigated.ResultsOverall, 37 crosstalk genes were found to be overlapping between the PD-associated DEGs and periodontitis-associated DEGs. Using clustering analysis, the most optimal clustering effects were obtained for periodontitis and PD when k = 2 and k = 3, respectively. Using the LASSO feature selection, five hub crosstalk genes, namely, FMNL1, MANSC1, PLAUR, RNASE6, and TCIRG1, were identified. In periodontitis, MANSC1 was negatively correlated and the other four hub crosstalk genes (FMNL1, PLAUR, RNASE6, and TCIRG1) were positively correlated with five hub IRRGs, namely, AQP9, C5AR1, CD14, CSF3R, and PLAUR. In PD, all five hub crosstalk genes were positively correlated with all five hub IRRGs. Additionally, RNASE6 was highly correlated with myeloid-derived suppressor cells (MDSCs) in periodontitis, and MANSC1 was highly correlated with plasmacytoid dendritic cells in PD.ConclusionFive genes (i.e., FMNL1, MANSC1, PLAUR, RNASE6, and TCIRG1) were identified as crosstalk biomarkers linking PD and periodontitis. The significant correlation between these crosstalk genes and immune cells strongly suggests the involvement of immunology in linking both diseases.

Read Full Article (External Site)