Vij, working with research fellow Prashanth Shivalingappa and CMU seniors Colin Westphal of Linden and Rachel Hole of Oakland, examined how e-cigarette vapor compared to tobacco smoke by testing how the vapor affects cells. The team found even minimal exposure of e-cigarette vapor for one hour, disrupted the protein processes in cells. It is the same path cigarette smoke and second-hand smoke takes in our bodies.
The team’s e-cigarette findings were published as an abstract in the April edition of the Journal of the Federation of American Societies for Experimental Biology.
“COPD/emphysema is not a genetic disorder,” Vij said. “We have described the role of overall protein processing in this and in previous research, which has been confirmed by studies from other groups.
“What we are talking about is how these proteins are made and how they are degraded. This process of proteostasis in our cells has to be very in layman’s terms tightly regulated, because if it goes off-balance, it’s a big problem.” Vij, Shivalingappa, Hole and Westphal exposed human bronchial epithelial cells to e-cigarette vapor from one to six hours and saw “significant disruptions” of the protein processing in the cells. Further tests verified that even minimal exposure of one-hour created harmful changes. The team also confirmed its findings with tests on laboratory mice exposed to acute e-cigarette vapors.
Vij’s recent research into first- and second-hand smoke exposure related to COPD was published in The American Journal of Respiratory Cell Molecular Biology, Apoptosis and PlosOne and abstracts related to smoke-induced emphysema were published earlier this year by the National Center for Biotechnology Information. He also presented April 1 at the Experimental Biology Conference in Boston.