Generation of four iPSC lines from a family harboring a 1p36-35 haplotype linked with bipolar disorder and recurrent depressive disorder: Three-generation patients and a healthy sibling.

Induced pluripotent stem cells (iPSCs) obtained from genetically characterized patients benefit the biological study of bipolar disorder (BD). Here, we present iPSC lines from three-generation patients with BD and recurrent depressive disorder (RDD) and a healthy control sibling in a family. All patients shared the specified haplotype in the 1p36-35, previously reported as the susceptibility locus of mood disorders. iPSCs were generated with the reprogramming factors OTC3/4, l-MYC, LIN28, SOX2, KLF4, and p53 shRNA through non-integrated episomal vectors. All iPSC lines strongly expressed pluripotency markers and proved the ability to differentiate into three germ lineages in vitro.

Haplotype phasing of a bipolar disorder pedigree revealed rare multiple mutations of SPOCD1 gene in the 1p36-35 susceptibility locus.

BACKGROUND: The etiology of bipolar disorder (BD) is poorly understood. Considering the complexity of BD, pedigree-based sequencing studies focusing on haplotypes at specific loci may be practical to discover high-impact risk variants. This study comprehensively examined the haplotype sequence at 1p36-35 BD and recurrent depressive disorder (RDD) susceptibility loci. METHODS: We surveyed BD families in Okinawa, Japan. We performed linkage analysis and determined the phased sequence of the affected haplotype using whole genome sequencing. We filtered rare missense variants on the haplotype. For validation, we conducted a case-control genetic association study on approximately 3000 Japanese subjects. RESULTS: We identified a three-generation multiplex pedigree with BD and RDD. Strikingly, we identified a significant linkage with mood disorders (logarithm of odds [LOD] = 3.61) at 1p36-35, supported in other ancestry studies. Finally, we determined the entire sequence of the 6.4-Mb haplotype shared by all affected subjects. Moreover, we found a rare triplet of missense variants in the SPOCD1 gene on the haplotype. Notably, despite the rare frequency, one heterozygote with multiple SPOCD1 variants was identified in an independent set of 88 BD type I genotyping samples. LIMITATIONS: The 1p36-35 sequence was obtained from only a single pedigree. The replicate sample was small. Short-read sequencing might miss structural variants. A polygenic risk score was not analyzed. CONCLUSION: The 1p36-35 haplotype sequence may be valuable for future BD variant studies. In particular, SPOCD1 is a promising candidate gene and should be validated.