Gene Misexpression in a Smoc2+ve/Sox2-Low Population in Juvenile Prop1-Mutant Pituitary Gland.

IF 3 Q2 ENDOCRINOLOGY & METABOLISM
Bailey E Masser, Michelle L Brinkmeier, Yuxuan Lin, Qin Liu, Aya Miyazaki, Jannatun Nayeem, Leonard Y M Cheung
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Abstract

Mutations in the pituitary-specific transcription factor Prophet of Pit-1 (PROP1) are the most common genetic etiology of combined pituitary hormone deficiency (CPHD). CPHD is associated with short stature, attributable to growth hormone deficiency and/or thyroid-stimulating hormone deficiency, as well as hypothyroidism and infertility. Pathogenic lesions impair pituitary development and differentiation of endocrine cells. We performed single-cell RNA sequencing of pituitary cells from a wild-type and a Prop1-mutant P4 female mouse to elucidate population-specific differential gene expression. We observed a Smoc2+ve population that expressed low Sox2, which trajectory analyses suggest are a transitional cell state as stem cells differentiate into endocrine cells. We also detected ectopic expression of Sox21 in these cells in the Prop1df/df mutant. Prop1-mutant mice are known to overexpress Pou3f4, which we now show to be also enriched in this Smoc2+ve population. We sought to elucidate the role of Pou3f4 during pituitary development and to determine the contributions of Pou3f4 upregulation to pituitary disease by utilizing double-mutant mice lacking both Prop1 and Pou3f4. However, our data showed that Pou3f4 is not required for normal pituitary development and function. Double mutants further demonstrated that the upregulation of Pou3f4 was not causative for the overexpression of Sox21. These data indicate loss of Pou3f4 is not a potential cause of CPHD, and further studies may investigate the functional consequence of upregulation of Pou3f4 and Sox21, if any, in the novel Smoc2+ve cell population.

幼年 Prop1 突变垂体中 Smoc2+ve/Sox2-Low 群体的基因表达错误。
垂体特异性转录因子Pit-1先知(PROP1)的突变是合并垂体激素缺乏症(CPHD)最常见的遗传病因。CPHD 与生长激素缺乏和/或促甲状腺激素缺乏导致的身材矮小以及甲状腺功能减退和不育症有关。致病病变会损害垂体的发育和内分泌细胞的分化。我们对野生型和Prop1突变型P4雌鼠的垂体细胞进行了单细胞RNA测序,以阐明群体特异性差异基因表达。我们观察到一个低表达Sox2的Smoc2+ve群体,轨迹分析表明这是干细胞分化为内分泌细胞时的过渡细胞状态。我们还在Prop1df/df突变体的这些细胞中检测到Sox21的异位表达。众所周知,Prop1突变小鼠会过度表达Pou3f4,而我们现在的研究表明,Pou3f4也富集在这一Smoc2+ve群体中。我们试图通过利用同时缺乏 Prop1 和 Pou3f4 的双突变小鼠来阐明 Pou3f4 在垂体发育过程中的作用,并确定 Pou3f4 上调对垂体疾病的贡献。然而,我们的数据显示,垂体的正常发育和功能并不需要Pou3f4。双突变体进一步表明,Pou3f4的上调与Sox21的过度表达无关。这些数据表明,Pou3f4的缺失不是CPHD的潜在病因,进一步的研究可能会调查Pou3f4和Sox21的上调在新型Smoc2+ve细胞群中的功能性后果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of the Endocrine Society
Journal of the Endocrine Society Medicine-Endocrinology, Diabetes and Metabolism
CiteScore
5.50
自引率
0.00%
发文量
2039
审稿时长
9 weeks
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