Melanotic nonpsammomatous trigeminal schwannoma as the first manifestation of Carney complex: case report.

OBJECTIVE: Melanotic schwannoma is a rare neoplasm, classifiable as a peripheral nerve sheath tumor, and differentiated from a typical schwannoma by heavy pigmentation. Psammoma bodies can be visualized in more than 50% of melanotic schwannomas. Half of patients with such "psammomatous melanotic schwannomas" have Carney complex, a dominantly transmitted autosomal disorder. Most recently, the tumor suppressor gene, PRKAR1A, coding for the Type 1alpha regulatory subunit of protein kinase A was found to be mutated in approximately half of the known Carney complex families. Although cranial schwannomas have been described in patients with Carney complex, their numbers are too small to be considered a definite part of the syndrome. Furthermore, only melanotic schwannomas with psammoma bodies are included as diagnostic criteria for Carney complex. The objective of this report is to communicate a case of trigeminal nonpsammomatous melanotic schwannoma as the first manifestation of Carney complex. CLINICAL PRESENTATION: A 34-year-old woman presented with odontalgia, right V3 hypoesthesia, V2 paresthesia, and diplopia. Magnetic resonance imaging scans of the brain revealed a small tumor with homogenous contrast in the right trigeminal pathway. INTERVENTION: We performed an extradural approach to the right cavernous sinus by a middle fossa approach. The lateral wall was opened between the cranial nerves, and a soft and black tumor was resected in a piecemeal fashion. Histology and immunohistochemical analysis of the tumor were compatible with melanotic schwannoma, but no psammomatous bodies were identified. Endocrine evaluation showed that this patient's symptoms fulfilled the diagnostic criteria of Carney complex, with lentiginosis, multiple breast ductal adenomas, multiple hypoechoic nodules on thyroid ultrasonography, and a 4 x 5-cm asymptomatic atrial cardiac myxoma, which was removed 15 days after the neurosurgery. Three months later, a recurrence of melanotic schwannoma was identified. Molecular analyses of genomic and somatic deoxyribonucleic acid from the patient found a 578 to 579delTG mutation of PRKAR1A. CONCLUSION: We present the unusual case of a nonpsammomatous trigeminal melanotic schwannoma associated with Carney complex, with confirmed PRKAR1A gene mutation. Our case highlights that neurosurgeons, in the presence of a melanotic schwannoma, should be aware of the features of the Carney complex because, in such cases, pre- and postoperative management is significantly affected. We also postulate that the absence of psammoma bodies or cranial localization do not exclude this diagnosis.

Tumores endócrinos associados às mutações das proteínas Gsalfa e Gi2alfa / Endocrine tumors associated to protein Gsalpha/Gi2alpha mutations

Diversas mutações em oncogenes promovem o crescimento tumoral através da indução de atividade de proteínas que normalmente transmitem sinais proliferativos a partir de fatores extracelulares. As proteínas G são uma família de proteínas ligadas ao nucleotídeo guanina que apresentam homologia estrutural e estão amplamente distribuídas em células eucariotas. Elas são constituídas por três sub-unidades (alfa, beta e gama). A sub-unidade alfa apresenta o sítio de ligação ao nucleotídeo guanina e é única para cada proteína G. A proteínas G estão acopladas aos receptores de superfície celular com sete hélices transmembrana com uma grande variedade de efetores intracelulares e segundos mensageiros. Um subgrupo de tumores endócrinos, incluindo os tumores hipofisários secretores de GH e ACTH, nódulos tireoideanos autônomos, tumores adrenocorticais e gonadais, foram associados a mutações somáticas ativadoras em códons altamente conservados das proteínas Gs (Arg201 e Gln227) e Gi (Arg179, Gln205). Estes achados moleculares indicaram que as proteínas G atuam como oncogenes, contribuindo no processo da tumorigênese endócrina em humanos.

[Endocrine tumors associated to protein Gsalpha/Gi2alpha mutations]. / Tumores endócrinos associados às mutações das proteínas Gsalfa e Gi2alfa.

Many oncogenic mutations promote tumor growth by inducing autonomous activity of proteins that normally transmit proliferative signal initiated by extracellular factors. G proteins are a family of guanine nucleotide binding proteins, which are structurally homologous and widely distributed in eukaryotic cells. They are composed of three different subunits (alpha, beta e gamma). The alpha subunit, which contains the guanine nucleotide-binding site, is unique to each G protein. The G proteins couple an array of seven transmembrane receptors at the cell surface with a variety of intracellular effectors, which produce second messenger molecules. A subset of endocrine tumors, such as GH- or ACTH-secreting pituitary adenomas, functioning thyroid adenomas, adrenocortical and gonadal tumors were associated with somatic activating mutations in the highly conserved codons of the Gs (Arg201 and Gln227) and Gi (Arg179 and Gln205) proteins. These findings indicated that the G proteins play a role as oncogenes, contributing with the human endocrine tumorigenesis.

Mecanismos moleculares dos tumores endócrinos / Molecular mechanisms of the endocrine tumors

Uma característica fundamental de todas as células eucariotas superiores é o período definido de vida do organismo, propriedade essa que se estende às células somáticas individuais que possuem o crescimento e a divisao altamente regulados. O estudo dos mecanismos de oncogênese tem permitido um conhecimento mais aprofundado desses processos de diferenciaçao e proliferaçao celulares. Alteraçoes genéticas relacionadas aos oncogenes, genes supressores de tumor e genes de reparo de erros de pareamento do DNA, estao ligadas à origem da formaçao dos tumores. O objetivo desta revisao é apresentar, sumariamente, alguns dos principais mecanismos de oncogênese nos tumores endócrinos.