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Exploring the principles of embryonic mammary gland branching morphogenesis.

Jyoti Prabha SattaRiitta LindströmSatu-Marja MyllymäkiQiang LanEwelina TrelaRenata Prunskaite-HyyryläinenBeata KaczyńskaMaria VoutilainenSatu KuureSeppo Juhani VainioMarja L Mikkola
Published in: Development (Cambridge, England) (2024)
Branching morphogenesis is a characteristic feature of many essential organs, such as the lung and kidney, and most glands, and is the net result of two tissue behaviors: branch point initiation and elongation. Each branched organ has a distinct architecture customized to its physiological function, but how patterning occurs in these ramified tubular structures is a fundamental problem of development. Here, we use quantitative 3D morphometrics, time-lapse imaging, manipulation of ex vivo cultured mouse embryonic organs and mice deficient in the planar cell polarity component Vangl2 to address this question in the developing mammary gland. Our results show that the embryonic epithelial trees are highly complex in topology owing to the flexible use of two distinct modes of branch point initiation: lateral branching and tip bifurcation. This non-stereotypy was contrasted by the remarkably constant average branch frequency, indicating a ductal growth invariant, yet stochastic, propensity to branch. The probability of branching was malleable and could be tuned by manipulating the Fgf10 and Tgfβ1 pathways. Finally, our in vivo data and ex vivo time-lapse imaging suggest the involvement of tissue rearrangements in mammary branch elongation.
Keyphrases
  • high resolution
  • machine learning
  • endothelial cells
  • stem cells
  • metabolic syndrome
  • cell therapy
  • big data
  • data analysis