TY - JOUR
T1 - Nematode homologue of PQBP1, a mental retardation causative gene, is involved in lipid metabolism
AU - Takahashi, Keiko
AU - Yoshina, Sawako
AU - Masashi, Maekawa
AU - Ito, Wakana
AU - Inoue, Takao
AU - Shiwaku, Hiroku
AU - Arai, Hiroyuki
AU - Mitani, Shohei
AU - Okazawa, Hitoshi
PY - 2009/1/1
Y1 - 2009/1/1
N2 - Background: PQBP1 is a causative gene for X-linked mental retardation (MR) whose patients frequently show lean body. C. elegans has a strictly conserved homologue gene of PQBP1, T21D12.3. Methodology and Principal Findings: We generated Venus-transgenic and T21D12.3-mutant nematodes to analyze developmental expression patterns and in vivo functions of the nematode PQBP1 homologue protein (pqbp-1.1). During development, pqbp-1.1 is expressed from cell proliferation stage to larva stage. In larva, intestinal cells show the highest expression of pqbp-1.1, while it decreases in adult worms. The mutants of pqbp-1.1 show a decrease of the lipid content in intestinal cells. Especially, incorporation of fatty acid into triglyceride is impaired. ShRNA-mediated repression of PQBP1 also leads to reduction of lipid content in mammalian primary white adipocytes. Conclusion/Significance: These results suggest that pqbp-1.1 is involved in lipid metabolism of intestinal cells. Dysfunction of lipid metabolism might underlie lean body, one of the most frequent symptoms associating with PQBP1-linked MR patients.
AB - Background: PQBP1 is a causative gene for X-linked mental retardation (MR) whose patients frequently show lean body. C. elegans has a strictly conserved homologue gene of PQBP1, T21D12.3. Methodology and Principal Findings: We generated Venus-transgenic and T21D12.3-mutant nematodes to analyze developmental expression patterns and in vivo functions of the nematode PQBP1 homologue protein (pqbp-1.1). During development, pqbp-1.1 is expressed from cell proliferation stage to larva stage. In larva, intestinal cells show the highest expression of pqbp-1.1, while it decreases in adult worms. The mutants of pqbp-1.1 show a decrease of the lipid content in intestinal cells. Especially, incorporation of fatty acid into triglyceride is impaired. ShRNA-mediated repression of PQBP1 also leads to reduction of lipid content in mammalian primary white adipocytes. Conclusion/Significance: These results suggest that pqbp-1.1 is involved in lipid metabolism of intestinal cells. Dysfunction of lipid metabolism might underlie lean body, one of the most frequent symptoms associating with PQBP1-linked MR patients.
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U2 - 10.1371/journal.pone.0004104
DO - 10.1371/journal.pone.0004104
M3 - Article
C2 - 19119319
AN - SCOPUS:58149474165
SN - 1932-6203
VL - 4
JO - PLoS One
JF - PLoS One
IS - 1
M1 - e4104
ER -