Jonathan Widdcombe, Ph.D.
Professor Emeritus
4112B Tupper Hall
Davis Campus

Our laboratory studies the epithelium of human airways. Altered function of this epithelium is at the heart of a number of respiratory diseases, including cystic fibrosis, asthma and chronic bronchitis. We obtain human tracheas post mortem or after surgery, and extract whatever epithelial cells are still living. These are then cultured until a tissue closely resembling the original epithelium is recreated. We have successfully cultured both the surface epithelium and epithelium from the airway mucous glands. We then use these cell cultures to study human airway diseases. Twenty years ago, we determined that airway epithelial cultures obtained from patients dying of cystic fibrosis were unable to secrete chloride ions. The main cause of death of patients with cystic fibrosis is the gradual blockage of airways with sticky mucous secretions, and much of our research has been directed at determining how a defect in chloride ion transport results in this pathology. More recently, we have been using the same cell cultures in asthma research. It is well known that the common colds trigger asthma attacks. Therefore, we have been infecting our cell cultures with the cold virus to determine whether this induces any changes in function that could potentially induce asthma.

Rajagopal, M., H. Fischer, and J. H. Widdicombe. (2008) Hormonal and purinergic stimulation of bicarbonate secretion in oviducts of rhesus monkeys. Am. J. Physiol. 294:E55-E62.

Lopez-Souza, N., G. Dolganov, R. Dubin, L.A Sachs, L. Sassina, H. Sporer, S. Yagi, D. Schnurr, H. A. Boushey and J. H. Widdicombe. (2004) Resistance of differentiated human airway epithelium to infection by rhinovirus. Am J Physiol. 286:L373-L381.

Widdicombe, J. H., L. L.-K. Chen, H. Sporer, H. K. Choi, I. S. Pecson and S. J. Bastacky. (2001) Distribution of tracheal and laryngeal mucous glands in some rodents and the rabbit. J. Anat. 198: 207-221.

Uyekubo, S. N., H. Fischer, A. Maminishkis, B. Illek, S. S. Miller, and J. H. Widdicombe. (1998) Cyclic AMP-dependent absorption of chloride across airway epithelium. Am. J. Physiol 275:L1219-L1227.

Yamaya, M., W. E. Finkbeiner, S. Y. Chun, and J. H. Widdicombe. (1992) Differentiated structure and function of cultures from human tracheal epithelium. Am J. Physiol. 262:L713-L724.

Barthelson, R. A., and J. H. Widdicombe. (1987) Cyclic adenosine monophosphate-dependent kinase in cystic fibrosis tracheal epithelium. J. Clin. Invest. 80:1799-1802.

Widdicombe, J. H., M. J. Welsh, and W. E. Finkbeiner. (1985) Cystic fibrosis decreases the apical membrane chloride permeability of monolayers cultured from cells of tracheal epithelium. Proc. Natl. Acad. Sci., USA. 82:6167-6171.

  • Cystic Fibrosis
  • Glaxo, Smith and Kline
  • National Institute of Health
  • Freshman Seminar Series
  • HPH400, Human Physiology
  • MCP200L, Molecular, Cellular and Integrative Physiology Rotations Course
  • MCP210A, Advanced Physiology
  • PMI285, Cellular Basis of Disease