Modulating cytokine microenvironment during T cell activation induces protective RSV-specific lung resident memory T cells in early life in mice.

Maternal immunisation against respiratory viruses provides protection in early life, but as antibodies wane, there can be a gap in coverage. This immunity gap might be filled by inducing pathogen-specific lung tissue-resident T cells (TRM). However, the neonatal mouse lung has a different inflammatory environment to the adult lung which affects T cell recruitment.

Quantitative proteomics reveals differential extracellular vesicle cargo from M1 and M2 monocyte-derived human macrophages.

Extracellular vesicles (EVs) mediate intercellular communication by carrying molecular cargo that facilitate diverse physiological processes. Macrophages, playing central roles in immune responses, release EVs that modulate various cellular functions. Given the distinct roles of M1 and M2 macrophage states, understanding the proteomic profiles of their EVs is important for elucidation of EV-mediated signalling and identifying potential biomarkers for diseases involving macrophage polarisation.

Long-term culture and passaging of term trophoblast for the investigation of syncytiotrophoblast function.

Recent advances in the use of trophoblast stem cells and organoid models have markedly enhanced our understanding of placental development and function. These models offer significant improvements over previous systems due to their extended viability in culture and capacity to replicate various trophoblast functions, such as extravillous trophoblast invasion, syncytialisation and 3D architecture. Initially, the generation of trophoblast organoids was confined to first trimester placental tissue; however, it was recently reported that term placentae can also serve as a source of trophoblast stem cells.

Fungal diversity and drug susceptibility of the oral mycobiome of domestic dogs.

The purpose of this study was to characterize the variety and diversity of the oral mycobiome of domestic dogs and to identify the commensal and potentially pathogenic fungi present. Two hundred fifty-one buccal swabs from domestic dogs were obtained and struck onto a chromogenic fungal growth medium that distinguishes between fungal species based on colony color and morphology. After isolating and harvesting single colonies, genomic DNA was extracted from pure cultures.

Circulating extracellular vesicles in healthy and pathological pregnancies: A scoping review of methodology, rigour and results.

Extracellular vesicles (EVs) play a crucial role in pregnancy, revealed by the presence of placental-derived EVs in maternal blood, their in vitro functionality, and their altered cargo in pregnancy pathologies. These EVs are thought to be involved in the development of pregnancy pathologies, such as pre-eclampsia, pre-term birth, and fetal growth restriction, and have been suggested as a source of biomarkers for gestational diseases. However, to accurately interpret their function and biomarker potential, it is necessary to critically evaluate the EV isolation and characterization methodologies used in pregnant cohorts.