Organ structure and bacterial microbiogeography in a reproductive organ of the Hawaiian bobtail squid reveal dimensions of a defensive symbiosis.

Many plants and animals house symbiotic microorganisms in specialized tissues or organs. Here, we used multidimensional imaging techniques to illuminate how host organ structure and bacterial microbiogeography contribute to the symbiotic function of an organ in the Hawaiian bobtail squid, . Along with the well-studied light organ, female harbor a community of bacteria in the accessory nidamental gland (ANG). The ANG is a dense network of epithelium-lined tubules, some of which are dominated by a single bacterial taxon. These bacteria are deposited into squid eggs, where they defend the developing embryos from harmful biofouling. This study used a combination of imaging techniques to visualize different dimensions of the ANG and its bacterial communities. Imaging entire organs with light sheet microscopy revealed that the ANG is a composite tissue of individual, non-intersecting tubules that each harbor their own bacterial population. The organ is bisected, with tubules converging toward two points at the posterior end. At these points, tubules empty into a space where bacteria can mix with squid jelly to be deposited onto eggs. Observations of the symbiotic community correlated bacterial taxa with cell morphology and revealed that tubule populations varied: some tubules contained populations of mixed taxa, whereas others contained only one bacterial genus. Together, these data shed light on how bacterial populations interact within the ANG and how the host uses physical structure to maintain and employ a symbiotic bacterial population in a defensive context.IMPORTANCESequence-based microbiome studies have revealed much about how hosts interact with communities of symbiotic microbiota but often lack a spatial understanding of how microbes relate to each other and the host in which they reside. This study uses a combination of microscopy techniques to reveal how the structure of a symbiotic organ in the female bobtail squid, , houses diverse, beneficial bacterial populations and deploys them for egg defense. These findings suggest that spatial partitioning may be key to harboring a diverse population of antimicrobial-producing bacteria and establishing a foundation for further understanding how host structures mediate symbiotic interactions.