Nucleoredoxin regulates WNT signaling during pituitary stem cell differentiation

Michelle L. Brinkmeier; Leonard Y.M. Cheung; Sean P. O'Connell; Diana K. Gutierrez; Eve C. Rhoads; Sally A. Camper; Shannon W. Davis

doi:10.1093/hmg/ddaf032

Nucleoredoxin regulates WNT signaling during pituitary stem cell differentiation

Michelle L. Brinkmeier
, Leonard Y.M. Cheung
, Sean P. O'Connell
, Diana K. Gutierrez
, Eve C. Rhoads
, Sally A. Camper
, Shannon W. Davis

Physiology and Biophysics

University of Michigan, Ann Arbor
University of South Carolina

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Nucleoredoxin (Nxn) encodes a multi-functional enzyme with oxidoreductase activity that regulates many different signaling pathways and cellular processes in a redox-dependent manner. Rare NXN mutations are reported in individuals with recessive Robinow syndrome, which involves mesomelic skeletal dysplasia, short stature, craniofacial dysmorphisms, and incompletely penetrant heart and palate defects. Here we report that Nxn is expressed in the ventral diencephalon and developing pituitary gland, and that Nxn deficient mice have pituitary dysmorphology and craniofacial abnormalities that include defects in the skull base and cleft palate. Nxn mutant mice exhibit reduced WNT signaling and reduced differentiation of pituitary stem cells into hormone-producing cells. These results suggest patients with Robinow syndrome could benefit from evaluation by endocrinologists for pituitary structural imaging and hormone insufficiency.

Original language	English
Pages (from-to)	870-881
Number of pages	12
Journal	Human Molecular Genetics
Volume	34
Issue number	10
DOIs	https://doi.org/10.1093/hmg/ddaf032
State	Published - May 15 2025

Keywords

Robinow syndrome
SOX2
WNT signaling
red-ox
scRNAseq

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10.1093/hmg/ddaf032

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title = "Nucleoredoxin regulates WNT signaling during pituitary stem cell differentiation",

abstract = "Nucleoredoxin (Nxn) encodes a multi-functional enzyme with oxidoreductase activity that regulates many different signaling pathways and cellular processes in a redox-dependent manner. Rare NXN mutations are reported in individuals with recessive Robinow syndrome, which involves mesomelic skeletal dysplasia, short stature, craniofacial dysmorphisms, and incompletely penetrant heart and palate defects. Here we report that Nxn is expressed in the ventral diencephalon and developing pituitary gland, and that Nxn deficient mice have pituitary dysmorphology and craniofacial abnormalities that include defects in the skull base and cleft palate. Nxn mutant mice exhibit reduced WNT signaling and reduced differentiation of pituitary stem cells into hormone-producing cells. These results suggest patients with Robinow syndrome could benefit from evaluation by endocrinologists for pituitary structural imaging and hormone insufficiency.",

keywords = "Robinow syndrome, SOX2, WNT signaling, red-ox, scRNAseq",

author = "Brinkmeier, \{Michelle L.\} and Cheung, \{Leonard Y.M.\} and O'Connell, \{Sean P.\} and Gutierrez, \{Diana K.\} and Rhoads, \{Eve C.\} and Camper, \{Sally A.\} and Davis, \{Shannon W.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025. Published by Oxford University Press.",

year = "2025",

month = may,

day = "15",

doi = "10.1093/hmg/ddaf032",

language = "English",

volume = "34",

pages = "870--881",

journal = "Human Molecular Genetics",

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T1 - Nucleoredoxin regulates WNT signaling during pituitary stem cell differentiation

AU - Brinkmeier, Michelle L.

AU - Cheung, Leonard Y.M.

AU - O'Connell, Sean P.

AU - Gutierrez, Diana K.

AU - Rhoads, Eve C.

AU - Camper, Sally A.

AU - Davis, Shannon W.

N1 - Publisher Copyright: © The Author(s) 2025. Published by Oxford University Press.

PY - 2025/5/15

Y1 - 2025/5/15

N2 - Nucleoredoxin (Nxn) encodes a multi-functional enzyme with oxidoreductase activity that regulates many different signaling pathways and cellular processes in a redox-dependent manner. Rare NXN mutations are reported in individuals with recessive Robinow syndrome, which involves mesomelic skeletal dysplasia, short stature, craniofacial dysmorphisms, and incompletely penetrant heart and palate defects. Here we report that Nxn is expressed in the ventral diencephalon and developing pituitary gland, and that Nxn deficient mice have pituitary dysmorphology and craniofacial abnormalities that include defects in the skull base and cleft palate. Nxn mutant mice exhibit reduced WNT signaling and reduced differentiation of pituitary stem cells into hormone-producing cells. These results suggest patients with Robinow syndrome could benefit from evaluation by endocrinologists for pituitary structural imaging and hormone insufficiency.

AB - Nucleoredoxin (Nxn) encodes a multi-functional enzyme with oxidoreductase activity that regulates many different signaling pathways and cellular processes in a redox-dependent manner. Rare NXN mutations are reported in individuals with recessive Robinow syndrome, which involves mesomelic skeletal dysplasia, short stature, craniofacial dysmorphisms, and incompletely penetrant heart and palate defects. Here we report that Nxn is expressed in the ventral diencephalon and developing pituitary gland, and that Nxn deficient mice have pituitary dysmorphology and craniofacial abnormalities that include defects in the skull base and cleft palate. Nxn mutant mice exhibit reduced WNT signaling and reduced differentiation of pituitary stem cells into hormone-producing cells. These results suggest patients with Robinow syndrome could benefit from evaluation by endocrinologists for pituitary structural imaging and hormone insufficiency.

KW - Robinow syndrome

KW - SOX2

KW - WNT signaling

KW - red-ox

KW - scRNAseq

UR - https://www.scopus.com/pages/publications/105004597004

U2 - 10.1093/hmg/ddaf032

DO - 10.1093/hmg/ddaf032

M3 - Article

C2 - 40044116

AN - SCOPUS:105004597004

SN - 0964-6906

VL - 34

SP - 870

EP - 881

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 10

ER -

Nucleoredoxin regulates WNT signaling during pituitary stem cell differentiation

Abstract

Keywords

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