Rett syndrome is caused by mutations in the gene MECP2 in ∼80% of affected individuals. We describe a previously unknown MeCP2 isoform. Mutations unique to this isoform and the absence, until now, of identified mutations specific to the previously recognized protein indicate an important role for the newly discovered molecule in the pathogenesis of Rett syndrome.Rett syndrome (RTT; OMIM 312750) is characterized by onset, in girls, of a gradual slowing of neurodevelopment in the second half of the first year of life that proceeds towards stagnation by age 4 years, followed by regression and loss of acquired fine motor and communication skills. A pseudostationary period follows during which a picture of preserved ambulation, aberrant communication and stereotypic hand wringing approximates early autism. Regression, however, remains insidiously ongoing and ultimately results in profound mental retardation 1 .Up to 80% of individuals with RTT have mutations 2,3 in exons 3 and 4 of the four-exon gene MECP2 (Fig. 1a) 4 encoding the transcriptional repressor MeCP2. In the known transcript of the gene, all four exons are used, the translation start site is in exon 2, and exon 1 and most of exon 2 form the 5′ untranslated region (UTR) 4 . For clarity, we refer to this transcript as MECP2A and its encoded protein as MeCP2A. We sought to identify MECP2 splice variants contributing new coding sequence that might contain mutations in the remaining individuals with RTT. Inspection of the 5′ UTR showed that, whereas exon 2 has a number of in-frame stop codons upstream of the ATG start codon, exon 1 contains an open reading frame across its entire length, including an ATG. Submitting a theoretical construct composed of exons 1, 3 and 4 to the ATGpr program (http://www.hri.co.jp/atgpr/), which predicts the likelihood that an ATG will be an initiation codon based on the significance of its surrounding Kozak nucleotide context, returned a reliability score of 97%, as compared with 64% for MECP2A. A search in EST databases identified eight examples of our theorized transcript, which we named MECP2B (Fig. 1b), as compared with 14 examples of MECP2A. MECP2B is predicted to encode a new isoform, MeCP2B, with an alternative, longer N terminus determined by exon 1 (see Supplementary Table 1 online).To confirm that MECP2B is expressed and not merely an artifact of cDNA library preparation, we amplified cDNA by PCR from a variety of tissues using a 5′ primer in exon 1 and a 3′ primer in exon 3 (Fig. 1a). We obtained two PCR products corresponding in size and sequence to MECP2A and MECP2B in all tissues, including fetal and adult brain and different brain subregions (Fig. 1c). Results in mouse were similar (Fig. 1c). We quantified the expression levels of the two transcripts in adult human brain. Expression of MECP2B was ten times higher than that of MECP2A (Fig. 1d). We studied the subcellular localization of MeCP2B after transfection of 3′ myc-tagged MECP2B into COS-7 cells and found it to be principally in the nucleus (Fig. 1e).To deter...
