Novel compound heterozygous mutations for lipoprotein lipase deficiency: a G-to-T transversion at the first position of exon 5 causing G154V missense mutation and a 5′ splice site mutation of intron 8

Yasuyuki Ikeda,Atsuko Takagi,Yuusei Nakata,Yasuhiko Sera,Sumio Hyoudou,Kazuko Hamamoto,Yoshikazu Nishi,Akira Yamamoto

doi:10.1016/s0022-2275(20)31596-0

Abstract

We systematically investigated the molecular defects causing a primary LPL deficiency in a Japanese male infant (patient DI) with fasting hyperchylomicronemia (type I hyperlipoproteinemia) and in his parents. Patient DI had neither LPL activity nor immunoreactive LPL mass in the pre- and post-heparin plasma. The patient was a compound heterozygote for novel mutations consisting of a G-to-T transversion at the first nucleotide of exon 5 [+1 position of 3′ acceptor splice site (3′-ass) of intron 4] and a T-to-C transition in the invariant GT at position +2 of the 5′ donor splice site (5′-dss) of intron 8 (Int8/5′-dss/t(+2)c). The G-to-T transversion, although affecting the 11 nucleotide of the 3′-consensus acceptor splice site, resulted in a substitution of Gly154 to Val (G154V; GG716C→GTC). The mutant G154V LPL expressed in COS-1 cells was catalytically inactive and hardly released from the cells by heparin. The Int8/5′-dss/t(+2)c mutation inactivated the authentic 5′ splice site of intron 8 and led to the utilization of a cryptic 5′-dss in exon 8 as an alternative splice site 133 basepairs upstream from the authentic splice site, thereby causing joining of a part of exon 8 to exon 9 with skipping of a 134-bp fragment of exon 8 and intron 8.These additional mutations in the consensus sequences of the 3′ and 5′ splice sites might be useful for better understanding the factors that are involved in splice site selection in vivo.—Ikeda, Y., A. Takagi, Y. Nakata, Y. Sera, S. Hyoudou, K. Hamamoto, Y. Nishi, and A. Yamamoto. Novel compound heterozygous mutations for lipoprotein lipase deficiency: a G-to-T transversion at the first position of exon 5 causing G154V missense mutation and a 5′ splice site mutation of intron 8. J. Lipid Res. 2001. 42: 1072–1081.

Highlights

We systematically investigated the molecular defects causing a primary LPL deficiency in a Japanese male infant with fasting hyperchylomicronemia and in his parents
We describe in detail a molecular defect of LPL of fasting hyperchylomicronemia due to primary LPL deficiency detected in a Japanese male infant and in his parents
Sequencing of the normal-sized LPL cDNA revealed that exon 8 normally joined to exon 9 through a normal skipping of intron 8 in which the last AA dinucleotides in exon 8 and the first G nucleotide in exon 9 encode AA/G for Lys414 (Fig. 4B and 4C). These results indicated that a T-to-C transition in the invariant GT of 5Ј donor splice site (5Ј-dss) in intron 8 completely inactivated the authentic 5Ј splice site, and a G(Ϫ133)T dinucleotide in exon 8 was alternatively used as a cryptic 5Ј-dss (No 2; 5Ј-GAG/GTAGAT-3Ј; Table 4)

Summary

Introduction

We systematically investigated the molecular defects causing a primary LPL deficiency in a Japanese male infant (patient DI) with fasting hyperchylomicronemia (type I hyperlipoproteinemia) and in his parents. The Int8/5Ј-dss/t(؉2)c mutation inactivated the authentic 5Ј splice site of intron 8 and led to the utilization of a cryptic 5Ј-dss in exon 8 as an alternative splice site 133 basepairs upstream from the authentic splice site, thereby causing joining of a part of exon 8 to exon 9 with skipping of a 134-bp fragment of exon 8 and intron 8. These additional mutations in the consensus sequences of the 3Ј and 5Ј splice sites might be useful for better understanding the factors that are involved in splice site selection in vivo.— Ikeda, Y., A.

Methods

Results

Conclusion