Quantitation of tryptase, chymase, Fc <i>epsilon</i> RI <i>alpha</i>, and Fc <i>epsilon</i> RI <i>gamma</i> mRNAs in human mast cells and basophils by competitive reverse transcription-polymerase chain reaction.

Abstract

Competitive reverse transcription-PCR assays developed for human tryptase, chymase, Fc epsilon RI alpha, and Fc epsilon RI gamma mRNA molecules were applied to the HMC-1 leukemic mast cell line, the KU812 leukemic basophil cell line, mast cells dispersed from lung and skin, and peripheral blood basophils. Relative amounts of alpha-tryptase and beta-tryptase mRNA were determined by analysis of BseAI digests of PCR products. Tryptase expression was highest in tissue-derived mast cells, lowest in basophils and KU812 cells, and intermediate in HMC-1 cells. beta-Tryptase mRNA predominated in HMC-1 and KU812 cells; mixtures of alpha- and beta-tryptase were found in tissue mast cells; and alpha-tryptase predominated in basophils. Chymase mRNA was more abundant in skin-derived (nearly all of the MCTC type) than lung-derived (variable amounts of MCTC and MCT cells) mast cells. Small amounts of chymase mRNA were detected in HMC-1 cells; none was found in basophils, in KU812 cells, or in the one preparation of 100% MCT cells derived from lung. Comparable amounts of Fc epsilon RI alpha and Fc epsilon RI gamma mRNA molecules were measured in basophils and tissue-derived mast cells, lesser amounts were detected in KU812 cells, and almost none was detected in HMC-1 cells. Thus, steady state levels of the granule and membrane resident molecules examined in our study are transcriptionally regulated in mast cells and basophils.