The primary left and right bronchial buds grow and sprout secondary bronchi, which in turn develop tertiary bronchi, and so on. Branching continues for a total of 6-8 generations in the mouse and for about 23 generations in humans, forming the estimated 50 million branches of the human lung. Thus, patterns of branching are incalculably complex. However, these branches are rarely random, implying that they are under genetic control. Genomic information alone cannot specify the patterning information in terms of where the branching occurs and the direction it grows as well as their size and shape. There is a complex choreography among glycosaminoglycans and growth factors/morphogens that provide a highly complex instructive cues that control lung branching and development of the functional lung. Herein, we describe the use of xylosides in the manipulation of glycosaminoglycan (GAG) biosynthesis and study the effect of xyloside-primed GAGs in the regulation of lung branching events.
Keywords: Glycosaminoglycan; Growth factors; Lung branching morphogenesis; Xylosides.
© 2022. Springer Science+Business Media, LLC, part of Springer Nature.