Granulocytes accumulate in resorbing tails of metamorphosing Xenopus laevis amphibians

•We define the roles of granulocytes in metamorphic Xenopus laevis tadpole tail reabsorption.•X. laevis have unique granulocyte subpopulations that contribute to metamorphosis.•Expression of chemokines associated with recruitment of these granulocyte subsets are elevated during natural and artificially induced metamorphosis.•One of these granulocyte subsets possesses elevated expression of a gene that elicits metamorphosis. Amphibian metamorphosis represents a dramatic example of post-embryonic development. In the anuran Xenopus laevis frog, this process involves extensive changes to larval tissues, structures, and physiology to produce its adult form. As a long-standing model to study tissue remodeling, both amphibian metamorphosis and mammalian development are under the control of thyroid hormone. Successful remodeling though, also requires precise temporospatial regulation of immune activation. Yet there is much to learn about the immune components linked to metamorphosis. In turn, granulocytes are a class of innate immune cells recently touted for their participation in processes beyond classical immune defenses, including in pathological and non-pathological tissue remodeling. In this manuscript, we explore the roles of granulocytes in perhaps the most conspicuous anuran metamorphic event: tadpole tail reabsorption. We characterize granulocyte infiltration into the tail as metamorphosis progresses. Although some granulocyte subpopulations exist in both Xenopus and mammals, our previous work has identified additional Xenopus-specific populations. Thus, here we further explored subpopulation dynamics through distinct stages of natural metamorphosis, their likely roles during this process, and their relationship with thyroid hormone. As endocrine disruptors continue to threaten species across the animal kingdom, the work described here offers much-needed insight into immune contributions to endocrine-linked development.