RESUMEN
The presence of the Tuberculosis (TB) disease-causing pathogen, Mycobacterium Tuberculosis (Mtb), induces the development of a pathological feature termed granuloma, which the host uses to contain the bacteria. However, the granuloma may dissociate resulting in detrimental caseation of the lung. The disease contributes to a growing global burden of lung function challenges, warranting for more understanding of the TB-induced immunopathology. The current study aims to explore in detail host factors that drive pathological features of TB contributing to extensive lung tissue destruction. Lung tissue sections obtained from patients undergoing surgical resection will be processed and analyzed using histopathological assays including Immunohistochemistry, Immunofluorescence, Hematoxylin and Eosin staining and Laser Capture Microdissection. The findings will provide key host factors that associate with exacerbated lung immunopathology during TB.
RESUMEN
The human brain undergoes protracted post-natal maturation, guided by dynamic changes in gene expression. To date, studies exploring these processes have used bulk tissue analyses, which mask cell type-specific gene expression dynamics. Here, using single nucleus (sn)RNA-Sseq on temporal lobe tissue, including samples of African ancestry, we build a joint paediatric and adult atlas of 54 cell subtypes, which we verify with spatial transcriptomics. We explore the differences in cell states between paediatric and adult cell types, revealing the genes and pathways that change during brain maturation. Our results highlight excitatory neuron subtypes, including the LTK and FREM subtypes, that show elevated expression of genes associated with cognition and synaptic plasticity in paediatric tissue. The new resources we present here improve our understanding of the brain during a critical period of its development and contribute to global efforts to build an inclusive cell map of the brain.