Biomedicines (May 2024)

Hyperoxia-Induced miR-195 Causes Bronchopulmonary Dysplasia in Neonatal Mice

  • Patrick Philpot,
  • Fred Graumuller,
  • Nicole Melchiorre,
  • Varsha Prahaladan,
  • Xander Takada,
  • Srinarmadha Chandran,
  • Melissa Guillermo,
  • David Dickler,
  • Zubair H. Aghai,
  • Pragnya Das,
  • Vineet Bhandari

DOI
https://doi.org/10.3390/biomedicines12061208
Journal volume & issue
Vol. 12, no. 6
p. 1208

Abstract

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Background: Exposure to hyperoxia is an important factor in the development of bronchopulmonary dysplasia (BPD) in preterm newborns. MicroRNAs (miRs) have been implicated in the pathogenesis of BPD and provide a potential therapeutic target. Methods: This study was conducted utilizing a postnatal animal model of experimental hyperoxia-induced murine BPD to investigate the expression and function of miR-195 as well as its molecular signaling targets within developing mouse lung tissue. Results: miR-195 expression levels increased in response to hyperoxia in male and female lungs, with the most significant elevation occurring in 40% O2 (mild) and 60% O2 (moderate) BPD. The inhibition of miR-195 improved pulmonary morphology in the hyperoxia-induced BPD model in male and female mice with females showing more resistance to injury and better recovery of alveolar chord length, septal thickness, and radial alveolar count. Additionally, we reveal miR-195-dependent signaling pathways involved in BPD and identify PH domain leucine-rich repeat protein phosphatase 2 (PHLPP2) as a novel specific target protein of miR-195. Conclusions: Our data demonstrate that high levels of miR-195 in neonatal lungs cause the exacerbation of hyperoxia-induced experimental BPD while its inhibition results in amelioration. This finding suggests a therapeutic potential of miR-195 inhibition in preventing BPD.

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