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Query: UMLS:C0027960 (
mole
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21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Activating
FGFR3
germline mutations cause skeletal dysplasia and craniosynostosis syndromes. Somatic
FGFR3
mutations have been identified in several cancer entities such as urothelial carcinoma and multiple myeloma. Recently, the same
FGFR3
mutations known from skeletal dysplasia syndromes and urothelial carcinoma have been shown to cause benign human skin tumors such as seborrheic keratoses and epidermal
nevi
. The underlying mechanisms for the somatic
FGFR3
mutations in the epidermis are unknown so far, as well as details of the involved signaling pathways in the mutant keratinocytes leading to the formation of acanthotic skin tumors. Herein we discuss potential mechanisms and functional consequences of activating
FGFR3
mutations in human skin. Further studies are required to provide insights in the pathogenesis of benign skin tumors caused by
FGFR3
mutations. These studies will add to new non-invasive therapeutical strategies for benign acanthotic skin tumors in dermatology.
...
PMID:FGFR3 mutations in benign skin tumors. 1717 48
Somatic
FGFR3
mutations have been reported in various cancers such as urothelial carcinoma. Evidence is growing that these mutations are also involved in the pathogenesis of benign acanthotic skin tumors such as epidermal
nevi
and seborrheic keratoses. The report by Hernandez et al. strongly supports this concept. However, further studies are required for a better pathogenetic understanding of
FGFR3
related tumors in urothelium and skin.
...
PMID:FGFR3 mutations in epidermal nevi and seborrheic keratoses: lessons from urothelium and skin. 1725 60
Patients with Crouzon and acanthosis nigricans syndrome show craniofacial features similar to those observed in patients with classic Crouzon syndrome, in addition to acanthosis nigricans with peculiar characteristics. More severe physical manifestations, such as Chiari malformation, hydrocephalus, and atresia or stenosis of the choanas, which are unusual in individuals with classic Crouzon syndrome, are reported in these patients. The molecular abnormality associated with Crouzon syndrome with acanthosis nigricans (CAN) is a transition in the transmembrane domain of the
FGFR3
gene that results in an Ala391Glu mutation. We describe two unrelated patients showing this mutation and compare their clinical features with those of other patients with CAN reported in the literature. In addition to craniosynostosis with crouzonoid facies and acanthosis nigricans (present in all patients), melanocytic
nevi
, choanal atresia or stenosis, hydrocephalus, Chiari malformations and oral abnormalities were observed in the majority of the 35 patients analyzed. Vertebral anomalies and conductive hearing loss were present with less frequency. Some characteristics considered typical of this condition (jaw cementomas, acanthomas and finger abnormalities) were absent in most of the patients.
...
PMID:Crouzon with acanthosis nigricans. Further delineation of the syndrome. 1793 5
A 5-year-old Mexican girl had a bilateral, systematized epidermal
nevus
of a non-epidermolytic, non-organoid type covering large parts of her body with the exception of the scalp. Clinically, this
nevus
was of a soft, velvety type showing affinity to the large body folds. Histopathological examination revealed orthohyperkeratosis and papillomatosis without granular degeneration and without any abnormality of adnexal structures. During infancy she developed seizures, and subsequently a delayed mental development was noted. Computer tomography of the brain revealed cortical and subcortical atrophy, a subdural hygroma in the left frontoparietotemporal region, and hypoplasia of corpus callosum. Molecular analysis of a biopsy specimen obtained from the epidermal
nevus
revealed a heterozygous R248C hotspot mutation in
FGFR3
, whereas in normal skin the
FGFR3
wild-type allele was exclusively found. The R248C mutation was also present in DNA extracted from blood leukocytes. Because
FGFR3
is involved in the development of the central nervous system, the clinical and genetic findings of this case indicate a widespread mosaicism of the
FGFR3
mutation. This unusual mosaic phenotype may represent a distinct entity within the group of epidermal
nevus
syndromes.
...
PMID:An epidermal nevus syndrome with cerebral involvement caused by a mosaic FGFR3 mutation. 1864 69
Somatic oncogenic activating mutations in
FGFR3
and/or PIK3CA have recently been described in benign epithelial cutaneous lesions that never progress to malignancy (seborrheic keratoses and epidermal
nevi
). The same mutations have been observed in malignant neoplasms from other tissues (bladder carcinoma, cervix cancer, colorectal cancer, myeloma). However, many of the abovementioned epithelial benign cutaneous tumors do not harbour mutations in
FGFR3
or PIK3CA. In this review, we focus on new candidate genes for discovery and we outline the potential of the skin as a model to achieve a better understanding of cancer biology.
...
PMID:Somatic oncogenic mutations, benign skin lesions and cancer progression: where to look next? 1872 96
FGFR3
mutations have recently been identified in several benign epidermal skin lesions such as seborrheic keratosis, epidermal
nevus
and solar lentigo. The functional consequences of these mutations in human skin are as yet unknown. In this study we analyzed the functional effects of the most common
FGFR3
mutation in benign skin tumors, the R248C
FGFR3
hotspot mutation, in human HaCaT keratinocytes. The cells were stably transduced with either the R248C or wildtype
FGFR3
IIIb cDNA using a retroviral vector system.
FGFR3
mutant and wildtype cells showed similar growth rates at subconfluence. However, at confluence
FGFR3
mutant keratinocytes revealed a significantly higher cell number than wildtype cells. Furthermore,
FGFR3
mutant cells showed significantly lower levels of apoptosis and decreased attachment to fibronectin compared with
FGFR3
wildtype cells. Expression of mutant
FGFR3
did not alter migration and senescence. Microarray analysis revealed only a few differentially expressed genes between
FGFR3
mutant and wildtype keratinocytes. Enhanced phosphorylation of ERK1/2 was observed in confluent R248C mutant HaCaT cells compared with wildtype keratinocytes. Our results suggest that an increased cell number at confluence along with a decreased apoptosis may contribute to the development of acanthotic tumors in
FGFR3
mutant skin in vivo.
...
PMID:FGFR3 mutation affects cell growth, apoptosis and attachment in keratinocytes. 2042 Aug 24
Eight cases of the acanthosis nigricans form of epidermal
nevus
have been described in literature. The present case is impressive and has an extensive segmental distribution. Although etiological factors, such as mutations in the
FGFR3
gene, are becoming recognized, treatment options remain limited. We present a case of a 14-year-old male with multiple hyperpigmented, hyperkeratotic plaques on the upper body, axillae, and groin with a segmental distribution following Blaschko lines. Histopathological investigation showed aspects of both acanthosis nigricans and epidermal
nevus
. So far, screening has not revealed any internal abnormalities. As previous cases show a clear association with internal diseases, repetitive screening for internal diseases and syndromes is suggested in the case of the acanthosis nigricans form of epidermal
nevus
. Treatment of the condition remains a challenge.
...
PMID:Extensive segmental acanthosis nigricans form of epidermal nevus. 2057 62
Activating
FGFR3
mutations have been identified in a variety of benign skin lesions (seborrheic keratosis, epidermal
nevus
, solar lentigo). However, the functional consequences of these mutations in the human epidermis are unknown. We therefore analyzed functional effects of the common R248C mutation in HaCaT keratinocytes. The cells were stably transduced with the R248C
FGFR3
mutation or
FGFR3
-IIIb wildtype sequence using a retroviral system. The R248C mutant keratinocytes revealed significantly enhanced cell growth compared with wildtype cells after reaching confluence. Likewise, apoptosis and attachment to fibronectin were significantly reduced in mutant cells. In contrast, there was no difference regarding migration and oncogene-induced senescence. Gene expression analysis revealed only a few differentially expressed genes between mutant and wildtype HaCaT keratinocytes. ERK1/2 appear to be involved in the
FGFR3
-dependent signalling of R248C mutant keratinocytes. Our results indicate that an increased cell number at confluence along with reduced apoptosis may contribute to the growth of benign acanthotic tumors in the human epidermis.
...
PMID:[R248C FGFR3 mutation. Effect on cell growth, apoptosis and attachment in HaCaT keratinocytes]. 2071 86
Phacomatosis pigmentokeratotica (PPK) is a rare epidermal nevus syndrome characterized by the co-occurrence of a sebaceous
nevus
and a speckled lentiginous
nevus
. The coexistence of an epidermal and a melanocytic
nevus
has been explained by two homozygous recessive mutations, according to the twin spot hypothesis, of which PPK has become a putative paradigm in humans. However, the underlying gene mutations remained unknown. Multiple tissues of six patients with PPK were analyzed for the presence of RAS,
FGFR3
, PIK3CA, and BRAF mutations using SNaPshot assays and Sanger sequencing. We identified a heterozygous HRAS c.37G>C (p.Gly13Arg) mutation in four patients and a heterozygous HRAS c.182A>G (p.Gln61Arg) mutation in two patients. In each case, the mutations were present in both the sebaceous and the melanocytic
nevus
. In the latter lesion, melanocytes were identified to carry the HRAS mutation. Analysis of various nonlesional tissues showed a wild-type sequence of HRAS, consistent with mosaicism. Our data provide no genetic evidence for the previously proposed twin spot hypothesis. In contrast, PPK is best explained by a postzygotic-activating HRAS mutation in a multipotent progenitor cell that gives rise to both a sebaceous and a melanocytic
nevus
. Therefore, PPK is a mosaic RASopathy.
...
PMID:Phacomatosis pigmentokeratotica is caused by a postzygotic HRAS mutation in a multipotent progenitor cell. 2385 30
Epidermal nevus syndrome (ENS) is an inclusive term for a heterogeneous group of congenital disorders characterized by the presence of epidermal
nevi
associated with systemic involvement. These disorders, as are all primary neurocutaneous syndromes, are neurocristopathies. The epidermal
nevi
that follow the lines of Blaschko and most systemic anomalies in skeletal, ocular, cardiovascular, endocrine, and orodental tissues, as well as lipomas, are due to defective neural crest. The most important and frequent anomaly in the brain in all forms of epidermal
nevus
syndromes (ENSs) is hemimegalencephaly (HME). This malformation often is not recognized, despite being the principal cause of neurological manifestations in ENSs. They consist mainly of epilepsy and developmental delay or intellectual disability. The onset of epilepsy in ENS usually is in early infancy, often as infantile spasms. Several syndromic forms have been delineated. I propose the term "Heide's syndrome" for those distinctive cases with the typical triad of hemifacial epidermal
nevus
, ipsilateral facial lipoma, and hemimegalencephaly. Most ENSs are sporadic. The mechanism is thought to be genetic mosaicism with a lethal autosomal dominant gene. Specific genetic mutations (PTEN,
FGFR3
, PIK3CA, and AKT1) have been documented in some patients. The large number of contributors for over more than a century and a half to the description of these disorders precludes the use of new author eponyms.
...
PMID:Epidermal nevus syndrome. 2362 86
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