Mouse retinal specializations reflect knowledge of natural environment statistics

Pressures for survival drive sensory circuit adaption to a species’ habitat, making it essential to statistically characterise natural scenes. Mice, a prominent visual system model, are dichromatic with enhanced sensitivity to green and UV. Their visual environment, however, is rarely considered. Here, we built a UV-green camera to record footage from mouse habitats. We found chromatic contrast to greatly diverge in the upper but not the lower visual field, an environmental difference that may underlie the species’ superior colour discrimination in the upper visual field. Moreover, training an autoencoder on upper but not lower visual field scenes was sufficient for the emergence of colour-opponent filters. Furthermore, the upper visual field was biased towards dark UV contrasts, paralleled by more light-offset-sensitive cells in the ventral retina. Finally, footage recorded at twilight suggests that UV promotes aerial predator detection. Our findings support that natural scene statistics shaped early visual processing in evolution

Estimation of self-motion duration and distance in rodents

Spatial orientation and navigation rely on information about landmarks and self-motion cues gained from multi-sensory sources. In this study, we focused on self-motion and examined the capability of rodents to extract and make use of information about own movement, i.e. path integration. Path integration has been investigated in depth in insects and humans. Demonstrations in rodents, however, mostly stem from experiments on heading direction;less is known about distance estimation. We introduce a novel behavioural paradigm that allows for probing temporal and spatial contributions to path integration. The paradigm is a bisection task comprising movement in a virtual reality environment in combination with either timing the duration ran or estimating the distance covered. We performed experiments with Mongolian gerbils and could show that the animals can keep track of time and distance during spatial navigation

Data from: Estimation of self-motion duration and distance in rodents

Spatial orientation and navigation rely on information about landmarks and self-motion cues gained from multi-sensory sources. In this study, we focused on self-motion and examined the capability of rodents to extract and make use of information about own movement, i.e. path integration. Path integration has been investigated in depth in insects and humans. Demonstrations in rodents, however, mostly stem from experiments on heading direction; less is known about distance estimation. We introduce a novel behavioural paradigm that allows for probing temporal and spatial contributions to path integration. The paradigm is a bisection task comprising movement in a virtual reality environment in combination with either timing the duration ran or estimating the distance covered. We performed experiments with Mongolian gerbils and could show that the animals can keep track of time and distance during spatial navigation

bisection_data

Behavioral response data was aquired with custom made Python software and written into text files. For details see ReadMe file

RANK links thymic regulatory T cells to fetal loss and gestational diabetes in pregnancy

Successful pregnancies rely on adaptations within the mother(1), including marked changes within the immune system(2). It has long been known that the thymus, the central lymphoid organ, changes markedly during pregnancy(3). However, the molecular basis and importance of this process remain largely obscure. Here we show that the osteoclast differentiation receptor RANK(4,5) couples female sex hormones to rewiring of the thymus during pregnancy. Genetic deletion of Rank (also known as Tnfrsf11a) in thymic epithelial cells results in impaired thymic involution and blunted expansion of natural regulatory T (T(reg)) cells in pregnant female mice. Sex hormones, in particular progesterone, drive the development of thymic T(reg) cells through RANK in a manner that depends on AIRE(+) medullary thymic epithelial cells and depletion of Rank in the thymic epithelium results in reduced accumulation of natural T(reg) cells in the placenta, accompanied by an increased number of miscarriages. Thymic deletion of Rank also resulted in impaired accumulation of T(reg) cells in visceral adipose tissue, associated with enlarged adipocyte size, tissue inflammation, enhanced maternal glucose intolerance, fetal macrosomia, and a long-lasting transgenerational alteration in glucose homeostasis; key hallmarks of gestational diabetes. Transplantation of T(reg) cells rescued fetal loss, maternal glucose intolerance and fetal macrosomia. In human pregnancies, gestational diabetes also correlates with a reduced number of T(reg) cells in the placenta. Our findings show that RANK promotes the hormone-mediated development of thymic T(reg) cells during pregnancy and expand the functional role of maternal T(reg) cells to gestational diabetes and the transgenerational metabolic rewiring of glucose homeostasis