The effect of ongoing protein synthesis on the steady state levels of Gp63 RNAs in Leishmania chagasi.

G63, the major surface glycoprotein of Leishmania chagasi promastigotes, increases 11-fold in amount as promastigotes grow from logarithmic to stationary phase. Transcripts from three different classes of gp63 genes are differentially expressed during this development (Ramamoorthy, R., Donelson, J. E., Paetz, K. E., Maybodi, M., Roberts, S. P., and Wilson, M. E. (1992) J. Biol. Chem. 267, 1888-1895). We studied the effect of protein synthesis inhibitors on gp63 mRNAs. The steady state level of log class gp63 RNA, expressed primarily in logarithmic phase promastigotes, increased 16.5-fold after incubation in cycloheximide. A similar increase in log gp63 RNAs was caused by inhibitors that block different steps in translation. In contrast, the levels of stationary class gp63 RNA, expressed in stationary phase parasites, and constitutive class gp63 RNA, expressed throughout promastigote growth, increased only 2.3- and 1.5-fold, respectively. The latter was not statistically significant. Nuclear run-on assays showed that the cycloheximide effect was not due to an increased rate of transcription. However, the t1/2 of log RNAs was prolonged 6.5-fold after incubation in cycloheximide, in contrast to a 1.7-fold increase in the t1/2 of ATPase RNA, suggesting that cycloheximide specifically stabilizes log gp63 mRNAs. Thus, a highly labile negative regulatory protein, such as an RNase, may specifically target log gp63 RNAs for degradation.

Three distinct RNAs for the surface protease gp63 are differentially expressed during development of Leishmania donovani chagasi promastigotes to an infectious form.

Leishmania sp. protozoa contain an abundant surface protease (gp63) that is important for the virulence of the parasite. We found that the average amount of gp63 expressed by Leishmania donovani chagasi promastigotes increases 6-11-fold as they develop from a less infectious form in logarithmic phase to a highly infectious form during stationary phase of cultivation in vitro. The predominant gp63 RNA switches from a 2.7 to a 3.0 kilobase (kb) RNA during the transition from log to stationary phase. Sequence analysis of gp63 cDNAs reveals that three different classes of gp63 RNAs, containing unique 3'-untranslated regions (3' UTRs), are expressed during growth to stationary phase. The predominant 2.7-(log) and 3.0-kb (stationary) class gp63 RNAs possess nearly identical coding regions, but they diverge in their 3' UTRs. A third class, consisting of 3.1- and 2.6-kb (constitutive) gp63 RNAs, is expressed at low levels throughout cultivation. This latter class encodes a gp63 with an additional 41 amino acids at its C terminus, replacing a potential signal for attachment of a glycolipid membrane anchor with a sequence that could be a transmembrane region. These findings are consistent with the regulated expression of different gp63 genes, resulting in different amounts of gp63 protein, during the promastigote's in vitro development to an infectious form.