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OR08-1 PROP1 Is Not Essential For Pituitary Cells Terminal Differentiation

INTRODUCTION: The pituitary gland controls several mechanisms as metabolism, growth, and reproduction, in response to hypothalamic stimuli. The adequate temporal/ spatial expression of transcription factors is mandatory for a normal pituitary development. PROP1 transcription factor is widely known a...

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Detalles Bibliográficos
Autores principales: Carvalho, Luciani, Chang, Claudia, Mendoca, Berenice, Marques, Juliana
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9627001/
http://dx.doi.org/10.1210/jendso/bvac150.940
Descripción
Sumario:INTRODUCTION: The pituitary gland controls several mechanisms as metabolism, growth, and reproduction, in response to hypothalamic stimuli. The adequate temporal/ spatial expression of transcription factors is mandatory for a normal pituitary development. PROP1 transcription factor is widely known as a key pituitary regulator. Pathogenic variants in the PROP1 gene are the main familial causes of hypopituitarism accounting for about 54% of the cases. AIM: To characterize the expression of genes involved in pituitary cells determination and specification during pituitary high demand period such as sexual maturation compared to adulthood in the Ames mice. METHODS: Weight and naso-anal length were measured. Pituitary glands were collected from 5 wild type (WT) and 5 prop1 mutant (Mut) animals with 30 (P30), 40, (P40), and 60 (P60) days after birth. RT-qPCR was performed to analyze the pituitary transcription factors Sox2, Sox3, Hesx1, Otx2, and genes codifying the hormones GH, TSH, LH/ FSH, CGA, and PRL by SYBR® Green (QIAGEN, Valencia, CA). They were normalized by endogenous genes and performed in triplicate. The target genes relative quantification was performed using the mutant related to its age paired wild type as a calibrator and the results were expressed as fold change. Immunofluorescence of SOX2 (ab97959, Abcam, UK) (1: 1600) and pituitary hormones GH, LH, and FSH (1: 250) were done in pituitaries at P60 and its aged paired control, stained with propidium iodide (1: 1000) for nucleus and the secondary antibody Alexa FluorÒ488 (ab150077, Abcam, UK) (1: 1000). RESULTS: All mutant mice presented decreased weight and naso-anal length at the three analyzed periods. The expression of the pituitary stem/ progenitor cell marker Sox2 was increased at P30 and P60 and decreased at P40. Sox3 was increased at P30 and decreased at P40 and P60. Hesx1 was increased at P30 and P60 and decreased at P40. Otx2 was increased at all periods. At P30 the genes codifying pituitary hormones was decreased, except for Tsh and Fsh. At P40 it was observed increased expression of the genes codifying Gh, Lh, Fsh and Prl, while Tsh and Cga expression was reduced. At P60 all pituitary hormones codifying genes presented decreased expression. The immunofluorescence at P60 showed increased expression of SOX2, similar expression of FSH, and decreased expression of GH and LH related to their age paired WT. CONCLUSION: Despite the absence of PROP1, Hesx1 is downregulated at P40. Pituitary cell subtype differentiation and hormonal production is observed at transcriptional and protein levels, showing that pituitary cells can differentiate and produce hormones in the absence of Prop1. The recovery of pituitary capacity to differentiate in mutant suggests the involvement of another factor in the pituitary cell differentiation pathway that could compensate the lack of Prop1. Presentation: Saturday, June 11, 2022 11:30 a.m. - 11:45 a.m.