Skip to Main Content

Meet Maurizio Chioccioli and his research on lung injury repair

July 09, 2024

Maurizio Chioccioli, PhD, is an Assistant Professor in Genetics and Comparative Medicine at Yale School of Medicine. Dr. Chioccioli started his lab in September 2023 and he is primarily focused on unraveling the intricate mechanisms underlying lung injury repair, particularly in the alveolus, a specialized structure responsible for gas exchange. Repair in the lung involves dynamic interactions between multiple different cell types; to tackle this complexity, Dr. Chioccioli has developed live imaging techniques to observe cellular dynamics in real-time. By integrating ex vivo and in vivo imaging modalities with multi omics methodologies, his lab aims to elucidate the intricate gene regulatory networks governing lung repair processes and their implications for chronic lung diseases.

Dr. Chioccioli recently published exciting discoveries about the role of stem cell migration in coordinating repair of damaged alveoli. “It all started with being curious to look at lung samples under the microscope, specifically samples from mice that are genetically modified to express reporters that allow visualization of alveolar type 2 cells (AT2s).” AT2s are resident stem cells that replenish themselves as well as alveolar epithelial cells, AT1s. By longitudinally imaging type 2 cells, Dr. Chioccioli’s team observed intriguing cellular movements post-injury that had never been previously described, prompting a comprehensive investigation. By tracking individual cells, they observed AT2 cells moving through alveolar pores and between adjacent alveoli. They further generated genetically engineered mice in which AT2 cells are unable to migrate, which led to defective repair of both themselves and AT1s. This work, published in Developmental Cell, identifies stem cell migration as an important driver of tissue regeneration.

One focus of Dr. Chioccioli’s research is on understanding the functions of recently identified intermediate progenitor cell (IPCs), a cellular state that AT2s pass through as they differentiate into AT1 cells during repair. After lung injury or infection, not all IPCs re-differentiate into AT1 cells and instead may transition towards an aberrant state with increased DNA damage and cellular senescence gene signatures. Additionally, Dr. Chioccioli’s lab is investigating cellular interactions within the lung microenvironment, exploring the exchange of organelles between cells and elucidating the intricate signaling dynamics that control stem cell function in the alveolar niche. These multifaceted projects aim to decipher the molecular programs that underly lung repair mechanisms and disease pathogenesis. Dr. Chioccioli’s approach, utilizing cutting-edge in vivo imaging technologies, overcomes critical challenges to the study of dynamic cell behaviors within their native tissue environment where complex interactions among various cell types influence cellular behaviors. Moreover, Dr. Chioccioli’s lab is continuously innovating to improve imaging protocols and infrastructure to optimize data acquisition and interpretation, ensuring that his research team can capture dynamic cellular events in greater detail than previously possible.

Dr. Chioccioli’s academic journey has been characterized by a relentless pursuit of knowledge and a willingness to embrace new challenges. Following his doctoral studies, he said “I embarked on a transformative postdoctoral experience that broadened my horizons and shaped my research interests. Transitioning from basic research to human-focused studies provided invaluable insights and paved the way for my current research trajectory.” In his lab, Dr. Chioccioli values open communication and collaboration, which fosters a supportive environment where challenges can be addressed collectively. Moreover, as a first-generation scholar, Dr. Chioccioli’s academic journey has been marked by uncertainty and resilience. Embracing flexibility and seizing opportunities have been crucial in overcoming challenges along the way. While the path may be unconventional, he draws strength from his experiences and remains committed to creating an inclusive and supportive environment for all members of his research team.

Dr. Chioccioli’s advice to early career researchers on effective collaboration is to embrace it as a cornerstone of scientific inquiry. By engaging with individuals from diverse backgrounds and disciplines, researchers can gain valuable insights and uncover novel approaches to complex problems. Remaining open-minded, adaptable, and receptive to feedback is crucial for driving scientific discovery as a team. The Chioccioli lab provides opportunities for both undergraduate and graduate students, as well as postdoctoral researchers, and is committed to offering enriching learning experiences, mentoring budding scientists, and fostering innovation.