Extreme Environmental Stress-Induced Biological Responses in the Planarian

Actin restricts cell proliferation and promotes differentiation during planarian regeneration

Actin is an integral component of the cytoskeleton, which plays an important role in various fundamental cellular processes, such as affecting the polarity of embryonic cells during embryonic development in various model organisms. Meanwhile, previous studies have demonstrated that the polymerization of the actin cytoskeleton can affect cell migration, proliferation, and differentiation. Actin polymerization state regulated osteogenic differentiation and affected cell proliferation. However, the function of actin in regenerative biology has not been thoroughly elucidated. The planarian flatworm, which contains a large number of adult somatic stem cells (neoblasts), is an ideal model organism to study regenerative biology. Here, we identified a homolog of actin in planarian Dugesia japonica and found that RNAi targeting actin during planarian regeneration results in the formation of protrusions on the dorsal side, where the division of phospho-H3 mitotic cells is increased. In addition, a decrease in differentiation is observed in regenerating tissues after Djactin RNAi. These results indicate that Djactin functions in proliferation and differentiation control in planarian regeneration.

Microbial Pathogenicity in Space

After a less dynamic period, space exploration is now booming. There has been a sharp increase in the number of current missions and also of those being planned for the near future. Microorganisms will be an inevitable component of these missions, mostly because they hitchhike, either attached to space technology, like spaceships or spacesuits, to organic matter and even to us (human microbiome), or to other life forms we carry on our missions. Basically, we never travel alone. Therefore, we need to have a clear understanding of how dangerous our "travel buddies" can be; given that, during space missions, our access to medical assistance and medical drugs will be very limited. Do we explore space together with pathogenic microorganisms? Do our hitchhikers adapt to the space conditions, as well as we do? Do they become pathogenic during that adaptation process? The current review intends to better clarify these questions in order to facilitate future activities in space. More technological advances are needed to guarantee the success of all missions and assure the reduction of any possible health and environmental risks for the astronauts and for the locations being explored.