A base-pairing interaction between U2 and U6 small nuclear RNAs occurs in > 150S complexes in HeLa cell extracts: implications for the spliceosome assembly pathway.

In mammalian cells, base pairing between the U2 and U6 small nuclear RNAs is required during pre-RNA splicing. We show by psoralen crosslinking of HeLa nuclear extract that U2.U6 base pairing occurs within abundant ribonucleoprotein complexes that sediment at > 150 S in glycerol gradients. All of the spliceosomal RNAs (U1, U2, U4, U5, and U6) cosediment with these large complexes, suggesting that they may be related to small nuclear RNA-containing structures called speckles/coiled bodies or snurposomes, which have been visualized in mammalian or amphibian nuclei, respectively. In contrast to nuclear extract, S100 extract, which is splicing-defective and lacks the > 150S complexes, does not contain base-paired U2.U6. However, U2.U6 base pairs form in S100 extract that has been made splicing-competent by supplementation with Ser/Arg-rich (SR) proteins, ATP, and an adenovirus splicing substrate. During splicing in supplemented S100 extract, U2.U6 base pairing precedes the appearance of splicing intermediates and occurs initially in an approximately 60S spliceosome complex but also in progressively larger (100-300 S) complexes. Possible functional relationships between the 60S spliceosome and the > 150S complexes are discussed.