An early hierarchic role of U1 small nuclear ribonucleoprotein in spliceosome assembly

Splicing of nuclear precursor messenger RNA (pre-mRNA) occurs on a large ribonucleoprotein complex, the spliceosome. Several small nuclear ribonucleoproteins (snRNP's) are subunits of this complex that assembles on the pre-mRNA. Although the U1 snRNP is known to recognize the 5' splice site, its roles in spliceosome formation and splice site alignment have been unclear. A new affinity purification method for the spliceosome is described which has provided insight into the very early stages of spliceosome formation in a yeast in vitro splicing system. Surprisingly, the U1 snRNP initially recognizes sequences at or near both splice junctions in the intron. This interaction must occur before the other snRNP's (U2, U4, U5, and U6) can join the complex. The results suggest that interaction of the two splice site regions occurs at an early stage of spliceosome formation and is probably mediated by U1 snRNP and perhaps other factors.     

The snoRNA HBII-52 regulates alternative splicing of the serotonin receptor 2C

The Prader-Willi syndrome is a congenital disease that is caused by the loss of paternal gene expression from a maternally imprinted region on chromosome 15. This region contains a small nucleolar RNA (snoRNA), HBII-52, that exhibits sequence complementarity to the alternatively spliced exon Vb of the serotonin receptor 5-HT(2C)R. We found that HBII-52 regulates alternative splicing of 5-HT(2C)R by binding to a silencing element in exon Vb. Prader-Willi syndrome patients do not express HBII-52. They have different 5-HT(2C)R messenger RNA (mRNA) isoforms than healthy individuals. Our results show that a snoRNA regulates the processing of an mRNA expressed from a gene located on a different chromosome, and the results indicate that a defect in pre-mRNA processing contributes to the Prader-Willi syndrome.     

Virus-specific splicing inhibitor in extracts from cells infected with HIV-1

Human immunodeficiency virus type 1 (HIV-1), in contrast with most other retroviruses, encodes trans-regulatory proteins for virus gene expression. It is shown in this study, by means of an in vitro splicing system, that nuclear extracts obtained from cells infected with HIV-1 contain a factor (or factors) that specifically inhibits splicing of a synthetic SP6/HIV pre-messenger RNA (pre-mRNA)-containing donor and acceptor splice sites in the coding region for the envelope protein. It is also shown that the SP6/HIV pre-mRNA is not capable of assembly in a ribonucleoprotein complex, spliceosome, in extracts from infected cells. These findings raise the possibility that specific inhibition of pre-mRNA splicing in the envelope protein coding region by HIV-1 trans-regulatory factors might be one control mechanism for efficient production of structural viral proteins and virion assembly.