Cargando…
A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma
Symptomatic pituitary adenomas occur with a prevalence of approximately 0.1% in the general population. It is estimated that 5% of pituitary adenomas occur in a familial setting, either in isolated or syndromic form. Recently, loss-of-function mutations in genes encoding succinate dehydrogenase subu...
| Autores principales: | , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Bioscientifica Ltd
2018
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6063986/ https://www.ncbi.nlm.nih.gov/pubmed/30087776 http://dx.doi.org/10.1530/EDM-18-0078 |
| _version_ | 1783342637534674944 |
|---|---|
| author | Maher, Michelle Roncaroli, Federico Mendoza, Nigel Meeran, Karim Canham, Natalie Kosicka-Slawinska, Monika Bernhard, Birgitta Collier, David Drummond, Juliana Skordilis, Kassiani Tufton, Nicola Gontsarova, Anastasia Martin, Niamh Korbonits, Márta Wernig, Florian |
| author_facet | Maher, Michelle Roncaroli, Federico Mendoza, Nigel Meeran, Karim Canham, Natalie Kosicka-Slawinska, Monika Bernhard, Birgitta Collier, David Drummond, Juliana Skordilis, Kassiani Tufton, Nicola Gontsarova, Anastasia Martin, Niamh Korbonits, Márta Wernig, Florian |
| author_sort | Maher, Michelle |
| collection | PubMed |
| description | Symptomatic pituitary adenomas occur with a prevalence of approximately 0.1% in the general population. It is estimated that 5% of pituitary adenomas occur in a familial setting, either in isolated or syndromic form. Recently, loss-of-function mutations in genes encoding succinate dehydrogenase subunits (SDHx) or MYC-associated factor X (MAX) have been found to predispose to pituitary adenomas in co-existence with paragangliomas or phaeochromocytomas. It is rare, however, for a familial SDHx mutation to manifest as an isolated pituitary adenoma. We present the case of a pituitary lactotroph adenoma in a patient with a heterozygous germline SDHB mutation, in the absence of concomitant neoplasms. Initially, the adenoma showed biochemical response but poor tumour shrinkage in response to cabergoline; therefore, transsphenoidal surgery was performed. Following initial clinical improvement, tumour recurrence was identified 15 months later. Interestingly, re-initiation of cabergoline proved successful and the lesion demonstrated both biochemical response and tumour shrinkage. Our patient’s SDHB mutation was identified when we realised that her father had a metastatic paraganglioma, prompting genetic testing. Re-inspection of the histopathological report of the prolactinoma confirmed cells with vacuolated cytoplasm. This histological feature is suggestive of an SDHx mutation and should prompt further screening for mutations by immunohistochemistry and/or genetic testing. Surprisingly, immunohistochemistry of this pituitary adenoma demonstrated normal SDHB expression, despite loss of SDHB expression in the patient’s father’s paraganglioma. LEARNING POINTS: Pituitary adenomas may be the presenting and/or sole feature of SDHB mutation-related disease. SDHx mutated pituitary adenomas may display clinically aggressive behaviour and demonstrate variable response to medical treatment. Histological evidence of intracytoplasmic vacuoles in a pituitary adenoma might suggest an SDH-deficient tumour and should prompt further screening for SDHx mutations. Immunohistochemistry may not always predict the presence of SDHx mutations. |
| format | Online Article Text |
| id | pubmed-6063986 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2018 |
| publisher | Bioscientifica Ltd |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-60639862018-08-07 A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma Maher, Michelle Roncaroli, Federico Mendoza, Nigel Meeran, Karim Canham, Natalie Kosicka-Slawinska, Monika Bernhard, Birgitta Collier, David Drummond, Juliana Skordilis, Kassiani Tufton, Nicola Gontsarova, Anastasia Martin, Niamh Korbonits, Márta Wernig, Florian Endocrinol Diabetes Metab Case Rep New Disease or Syndrome: Presentations/Diagnosis/Management Symptomatic pituitary adenomas occur with a prevalence of approximately 0.1% in the general population. It is estimated that 5% of pituitary adenomas occur in a familial setting, either in isolated or syndromic form. Recently, loss-of-function mutations in genes encoding succinate dehydrogenase subunits (SDHx) or MYC-associated factor X (MAX) have been found to predispose to pituitary adenomas in co-existence with paragangliomas or phaeochromocytomas. It is rare, however, for a familial SDHx mutation to manifest as an isolated pituitary adenoma. We present the case of a pituitary lactotroph adenoma in a patient with a heterozygous germline SDHB mutation, in the absence of concomitant neoplasms. Initially, the adenoma showed biochemical response but poor tumour shrinkage in response to cabergoline; therefore, transsphenoidal surgery was performed. Following initial clinical improvement, tumour recurrence was identified 15 months later. Interestingly, re-initiation of cabergoline proved successful and the lesion demonstrated both biochemical response and tumour shrinkage. Our patient’s SDHB mutation was identified when we realised that her father had a metastatic paraganglioma, prompting genetic testing. Re-inspection of the histopathological report of the prolactinoma confirmed cells with vacuolated cytoplasm. This histological feature is suggestive of an SDHx mutation and should prompt further screening for mutations by immunohistochemistry and/or genetic testing. Surprisingly, immunohistochemistry of this pituitary adenoma demonstrated normal SDHB expression, despite loss of SDHB expression in the patient’s father’s paraganglioma. LEARNING POINTS: Pituitary adenomas may be the presenting and/or sole feature of SDHB mutation-related disease. SDHx mutated pituitary adenomas may display clinically aggressive behaviour and demonstrate variable response to medical treatment. Histological evidence of intracytoplasmic vacuoles in a pituitary adenoma might suggest an SDH-deficient tumour and should prompt further screening for SDHx mutations. Immunohistochemistry may not always predict the presence of SDHx mutations. Bioscientifica Ltd 2018-07-21 /pmc/articles/PMC6063986/ /pubmed/30087776 http://dx.doi.org/10.1530/EDM-18-0078 Text en © 2018 The authors http://creativecommons.org/licenses/by-nc-nd/3.0/deed.en_GB This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License (http://creativecommons.org/licenses/by-nc-nd/3.0/deed.en_GB) . |
| spellingShingle | New Disease or Syndrome: Presentations/Diagnosis/Management Maher, Michelle Roncaroli, Federico Mendoza, Nigel Meeran, Karim Canham, Natalie Kosicka-Slawinska, Monika Bernhard, Birgitta Collier, David Drummond, Juliana Skordilis, Kassiani Tufton, Nicola Gontsarova, Anastasia Martin, Niamh Korbonits, Márta Wernig, Florian A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma |
| title | A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma |
| title_full | A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma |
| title_fullStr | A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma |
| title_full_unstemmed | A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma |
| title_short | A patient with a germline SDHB mutation presenting with an isolated pituitary macroprolactinoma |
| title_sort | patient with a germline sdhb mutation presenting with an isolated pituitary macroprolactinoma |
| topic | New Disease or Syndrome: Presentations/Diagnosis/Management |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6063986/ https://www.ncbi.nlm.nih.gov/pubmed/30087776 http://dx.doi.org/10.1530/EDM-18-0078 |
| work_keys_str_mv | AT mahermichelle apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT roncarolifederico apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT mendozanigel apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT meerankarim apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT canhamnatalie apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT kosickaslawinskamonika apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT bernhardbirgitta apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT collierdavid apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT drummondjuliana apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT skordiliskassiani apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT tuftonnicola apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT gontsarovaanastasia apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT martinniamh apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT korbonitsmarta apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT wernigflorian apatientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT mahermichelle patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT roncarolifederico patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT mendozanigel patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT meerankarim patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT canhamnatalie patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT kosickaslawinskamonika patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT bernhardbirgitta patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT collierdavid patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT drummondjuliana patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT skordiliskassiani patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT tuftonnicola patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT gontsarovaanastasia patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT martinniamh patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT korbonitsmarta patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma AT wernigflorian patientwithagermlinesdhbmutationpresentingwithanisolatedpituitarymacroprolactinoma |