Shannon M. Steinberg scite author profile

Background:Birt–Hogg–Dubé syndrome (BHDS) (MIM 135150) is an autosomal dominant predisposition to the development of follicular hamartomas (fibrofolliculomas), lung cysts, spontaneous pneumothorax, and kidney neoplasms. Germline mutations in BHD are associated with the susceptibility for BHDS. We previously described 51 BHDS families with BHD germline mutations.Objective:To characterise the BHD mutation spectrum, novel mutations and new clinical features of one previously reported and 50 new families with BHDS.Methods:Direct bidirectional DNA sequencing was used to screen for mutations in the BHD gene, and insertion and deletion mutations were confirmed by subcloning. We analysed evolutionary conservation of folliculin by comparing human against the orthologous sequences.Results:The BHD mutation detection rate was 88% (51/58). Of the 23 different germline mutations identified, 13 were novel consisting of: four splice site, three deletions, two insertions, two nonsense, one deletion/insertion, and one missense mutation. We report the first germline missense mutation in BHD c.1978A>G (K508R) in a patient who presented with bilateral multifocal renal oncocytomas. This mutation occurs in a highly conserved amino acid in folliculin. 10% (5/51) of the families had individuals without histologically confirmed fibrofolliculomas. Of 44 families ascertained on the basis of skin lesions, 18 (41%) had kidney tumours. Patients with a germline BHD mutation and family history of kidney cancer had a statistically significantly increased probability of developing renal tumours compared to patients without a positive family history (p = 0.0032). Similarly, patients with a BHD germline mutation and family history of spontaneous pneumothorax had a significantly increased greater probability of having spontaneous pneumothorax than BHDS patients without a family history of spontaneous pneumothorax (p = 0.011). A comprehensive review of published reports of cases with BHD germline mutation is discussed.Conclusion:BHDS is characterised by a spectrum of mutations, and clinical heterogeneity both among and within families.

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Resident memory T cells in the skin mediate durable immunity to melanoma

Malik

et al. 2017

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Tissue-resident memory T cells (TRM cells) have been widely characterized in infectious disease settings; however, their role in mediating immunity to cancer remains unknown. Here we report that skin-resident memory T cell responses to melanoma are generated naturally as a result of autoimmune vitiligo. Melanoma antigen-specific TRM cells resided predominantly in melanocyte-depleted hair follicles and were maintained without recirculation or replenishment from the lymphoid compartment. These cells expressed CD103, CD69, and CLA, but lacked PD-1 or LAG-3, and were capable of making IFN-γ. CD103 expression on CD8 T cells was required for establishment of TRM cells in skin, but was dispensable for vitiligo development. Importantly, CD103+ CD8 TRM cells were critical for protection against melanoma re-challenge. This work establishes that CD103-dependent TRM cells play a key role in perpetuating anti-tumor immunity.

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Novel transglutaminase-1 mutations and genotype-phenotype investigations of 104 patients with autosomal recessive congenital ichthyosis in the USA

Farasat

Wei

Herman

et al. 2008

Journal of Medical Genetics

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Multiple murine BRaf^V600E melanoma cell lines with sensitivity to PLX4032

Jenkins

Steinberg

Alexander

et al. 2014

Pigment Cell Melanoma Res

110

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Summary The BRAFV600E mutation, which approaches 50% in human melanomas, constitutively activates pERK and contributes to disease progression. The BRAFV600E inhibitor, Vemurafenib (PLX4032), shows promising clinical responses, but resistance to PLX4032 usually develops within a year. Transgenic mouse models allow the study of BRafV600E melanoma in vivo, however in vitro models are necessary to better understand the molecular mechanism underlying disease progression and resistance. We established melanoma cell lines (D4M cells) from the conditional mouse model of metastatic melanoma: Tyr::CreER;BrafCA;Ptenlox/lox, which recapitulates human disease. Cultured D4M cells express high constitutive pERK. PLX4032 abrogates ERK phosphorylation, inhibits D4M proliferation, and increases expression of the melanoma associated antigen, pmel, in vitro, consistent with human BRAFV600E melanoma cell lines. D4M cells are transplantable in either immune-compromised or syngeneic B6 mice. Thus, D4M cell lines allow correlation of in vitro studies on molecular mechanisms of melanoma with in vivo investigations on pathology and immunology.

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