- Faucz, Fabio;
- Horvath, Anelia;
- Azevedo, Monalisa;
- Levy, Isaac;
- Bak, Beata;
- Wang, Ying;
- Xekouki, Paraskevi;
- Szarek, Eva;
- Gourgari, Evgenia;
- Manning, Allison;
- de Alexandre, Rodrigo;
- Saloustros, Emmanouil;
- Trivellin, Giampaolo;
- Lodish, Maya;
- Hofman, Paul;
- Anderson, Yvonne;
- Holdaway, Ian;
- Oldfield, Edward;
- Chittiboina, Prashant;
- Nesterova, Maria;
- Biermasz, Nienke;
- Wit, Jan;
- Bernard, Daniel;
- Stratakis, Constantine
IGSF1 is a membrane glycoprotein highly expressed in the anterior pituitary. Pathogenic mutations in the IGSF1 gene (on Xq26.2) are associated with X-linked central hypothyroidism and testicular enlargement in males. In this study, we tested the hypothesis that IGSF1 is involved in the development of pituitary tumors, especially those that produce growth hormone (GH). IGSF1 was sequenced in 21 patients with gigantism or acromegaly and 92 healthy individuals. Expression studies with a candidate pathogenic IGSF1 variant were carried out in transfected cells and immunohistochemistry for IGSF1 was performed in the sections of GH-producing adenomas, familial somatomammotroph hyperplasia, and in normal pituitary. We identified the sequence variant p.N604T, which in silico analysis suggested could affect IGSF1 function, in two male patients and one female with somatomammotroph hyperplasia from the same family. Of 60 female controls, two carried the same variant and seven were heterozygous for other variants. Immunohistochemistry showed increased IGSF1 staining in the GH-producing tumor from the patient with the IGSF1 p.N604T variant compared with a GH-producing adenoma from a patient negative for any IGSF1 variants and with normal control pituitary tissue. The IGSF1 gene appears polymorphic in the general population. A potentially pathogenic variant identified in the germline of three patients with gigantism from the same family (segregating with the disease) was also detected in two healthy female controls. Variations in IGSF1 expression in pituitary tissue in patients with or without IGSF1 germline mutations point to the need for further studies of IGSF1 action in pituitary adenoma formation.