Quantifying social roles in multi-animal videos using subject-aware deep-learning

Goss, Kelly; Bueno-Junior, Lezio S.; Stangis, Katherine; Ardoin, Théo; Carmon, Hanna; Zhou, Jie; Satapathy, Rohan; Baker, Isabelle; Jones-Tinsley, Carolyn E.; Lim, Miranda M.; Watson, Brendon O.; Sueur, Cédric; Ferrario, Carrie R.; Murphy, Geoffrey G.; Ye, Bing; Hu, Yujia

doi:10.1101/2024.07.07.602350

2024

DOI: 10.1101/2024.07.07.602350

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Quantifying social roles in multi-animal videos using subject-aware deep-learning

Kelly Goss,

Lezio S. Bueno-Junior,

Katherine Stangis

et al.

Abstract: Analyzing social behaviors is critical for many fields, including neuroscience, psychology, and ecology. While computational tools have been developed to analyze videos containing animals engaging in limited social interactions under specific experimental conditions, automated identification of the social roles of freely moving individuals in a multi-animal group remains unresolved. Here we describe a deep-learning-based system – named LabGym2 – for identifying and quantifying social roles in multi-animal grou… Show more

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Intestinal stem cells enhance local mucosal immunity through apoptotic body phagocytosis

Zhou,

Lu,

et al. 2024

Preprint

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Modulation of immune tone at mucosal surfaces is critical to maintain homeostasis while facilitating the handling of emerging threats. One dynamic component of immune modulation is the phagocytosis and clearance of apoptotic bodies known as efferocytosis that inhibits inflammation by promoting its resolution. Here, we evaluated the effects of apoptotic body phagocytosis by intestinal epithelial stem and progenitor cells (ISCs). Unexpectedly, instead of immunomodulation through efferocytosis, this process elevated local immune system activity. To achieve this result, ISCs actively engaged apoptotic bodies in a unique fashion, leading to their engulfment and ultimate delivery to lysosomes for processing. We found that ISCs were capable of actively recruiting inert material such as apoptotic bodies by using actin-based intrinsic biomechanical processes. Uptake of apoptotic bodies was facilitated by complement factor C3 produced by apoptotic bodies themselves. ISCs in turn generated signals heightening T cell activity that was driven in part by ISC-generated TNF. Taken together, uptake of apoptotic bodies by ISCs produced a local inflammatory alert to specific immune cells. This altered paradigm for the response to phagocytosed apoptotic bodies fits the needs of active mucosal surfaces and demonstrates that efferocytosis as currently defined is not a universal response of all cell types.

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Intestinal stem cells enhance local mucosal immunity through apoptotic body phagocytosis

Zhou,

Lu,

et al. 2024

Preprint

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Quantifying social roles in multi-animal videos using subject-aware deep-learning

Cited by 1 publication

References 52 publications

Intestinal stem cells enhance local mucosal immunity through apoptotic body phagocytosis

Intestinal stem cells enhance local mucosal immunity through apoptotic body phagocytosis

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