Brandon Murphy scite author profile

Human T-cell leukemia virus type 1 (HTLV-1) and type 2 (HTLV-2) are highly related retroviruses that transform T cells in vitro but have distinct pathological outcomes in vivo. HTLV-1 encodes a protein from the antisense strand of its proviral genome, the HTLV-1 basic leucine zipper factor (HBZ), which inhibits Tax-1-mediated viral transcription and promotes cell proliferation, a high proviral load, and persistence in vivo. In adult T-cell leukemia/lymphoma (ATL) cell lines and patient T cells, hbz is often the only viral gene expressed. The antisense strand of the HTLV-2 proviral genome also encodes a protein termed APH-2. Like HBZ, APH-2 is able to inhibit Tax-2-mediated viral transcription and is detectable in most primary lymphocytes from HTLV-2-infected patients. However, unlike HBZ, the loss of APH-2 in vivo results in increased viral replication and proviral loads, suggesting that HBZ and APH-2 modulate the virus and cellular pathways differently. Herein, we examined the effect of APH-2 on several known HBZ-modulated pathways: NF-B (p65) transactivation, transforming growth factor ␤ (TGF-␤) signaling, and interferon regulatory factor 1 (IRF-1) transactivation. Like HBZ, APH-2 has the ability to inhibit p65 transactivation. Conversely, HBZ and APH-2 have divergent effects on TGF-␤ signaling and IRF-1 transactivation. Quantitative PCR and protein half-life experiments revealed a substantial disparity between HBZ and APH-2 transcript levels and protein stability, respectively. Taken together, our data further elucidate the functional differences between HBZ and APH-2 and how these differences can have profound effects on the survival of infected cells and, ultimately, pathogenesis. IMPORTANCEHuman T-cell leukemia virus type 1 (HTLV-1) and type 2 (HTLV-2) are highly related retroviruses that have distinct pathological outcomes in infected hosts. Functional comparisons of HTLV-1 and HTLV-2 proteins provide a better understanding about how HTLV-1 infection is associated with disease and HTLV-2 infection is not. The HTLV genome antisense-strand genes hbz and aph-2 are often the only viral genes expressed in HTLV-infected T cells. Previously, our group found that HTLV-1 HBZ and HTLV-2 APH-2 had distinct effects in vivo and hypothesized that the differences in the interactions of HBZ and APH-2 with important cell signaling pathways dictate whether cells undergo proliferation, apoptosis, or senescence. Ultimately, these functional differences may affect how HTLV-1 causes disease but HTLV-2 generally does not. In the current study, we compared the effects of HBZ and APH-2 on several HTLV-relevant cellular pathways, including the TGF-␤ signaling, NF-B activation, and IRF-1 transactivation pathways. Human T-cell leukemia virus type 1 (HTLV-1) is a complex oncogenic deltaretrovirus that infects an estimated 15 million to 25 million people worldwide, with areas of endemic infection being found in southwestern Japan, Africa, South America, and the Caribbean Basin (1). Approximately 2 to 5% of HTLV-1-infected indi...

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UVB mutagenesis differs in Nras- and Braf-mutant mouse models of melanoma

Bowman

Hennessey

Weiss

et al. 2021

Life Sci. Alliance

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BRAF-mutant melanomas are more likely than NRAS-mutant melanomas to arise in anatomical locations protected from chronic sun damage. We hypothesized that this discrepancy in tumor location is a consequence of the differential sensitivity of BRAF and NRAS-mutant melanocytes to ultraviolet light (UV)-mediated carcinogenesis. We tested this hypothesis by comparing the mutagenic consequences of a single neonatal, ultraviolet-AI (UVA; 340–400 nm) or ultraviolet-B (UVB; 280–390 nm) exposure in mouse models heterozygous for mutant Braf or homozygous for mutant Nras. Tumor onset was accelerated by UVB, but not UVA, and the resulting melanomas contained recurrent mutations affecting the RING domain of MAP3K1 and Actin-binding domain of Filamin A. Melanomas from UVB-irradiated, Braf-mutant mice averaged twice as many single-nucleotide variants and five times as many dipyrimidine variants than tumors from similarly irradiated Nras-mutant mice. A mutational signature discovered in UVB-accelerated tumors mirrored COSMIC signatures associated with human skin cancer and was more prominent in Braf- than Nras-mutant murine melanomas. These data show that a single UVB exposure yields a greater burden of mutations in murine tumors driven by oncogenic Braf.

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Enhanced BRAF engagement by NRAS mutants capable of promoting melanoma initiation

et al. 2022

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A distinct profile of NRAS mutants is observed in each tumor type. It is unclear whether these profiles are determined by mutagenic events or functional differences between NRAS oncoproteins. Here, we establish functional hallmarks of NRAS mutants enriched in human melanoma. We generate eight conditional, knock-in mouse models and show that rare melanoma mutants (NRAS G12D, G13D, G13R, Q61H, and Q61P) are poor drivers of spontaneous melanoma formation, whereas common melanoma mutants (NRAS Q61R, Q61K, or Q61L) induce rapid tumor onset with high penetrance. Molecular dynamics simulations, combined with cell-based protein–protein interaction studies, reveal that melanomagenic NRAS mutants form intramolecular contacts that enhance BRAF binding affinity, BRAF-CRAF heterodimer formation, and MAPK > ERK signaling. Along with the allelic series of conditional mouse models we describe, these results establish a mechanistic basis for the enrichment of specific NRAS mutants in human melanoma.

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Can Combination MEK and Akt Inhibition Slay the Giant Congenital Nevus?

Murphy

Burd

2019

Journal of Investigative Dermatology

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The clinical management of large and giant congenital melanocytic nevi (lgCMN) relies heavily upon iterative surgical procedures. In this issue Rouille et al. (2019) use lgCMN explants and a newly developed patient-derived xenograft model to show that the local administration of MEK and Akt inhibitors limits the lgCMN proliferative potential. These findings, along with emerging reports, support continued investigation of targeted therapies in lgCMN.

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UVB mutagenesis differs in NRAS- and BRAF-mutant mouse models of melanoma

Bowman

Hennessey

Tallman

et al. 2019

Preprint

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It is difficult to discern the relative contributions of ultraviolet-A (UVA; 320-400nm) and ultraviolet-B (UVB; 280-320nm) radiation to human melanoma development. Here, we compared the tumorigenic consequences of a single UVA or UVB exposure in mouse models predisposed to Braf- or Nras-mutant melanoma. Exposures approximated the amount of UVA or UVB energy contained in ∼40 minutes of summer sunlight. While UVA accelerated melanoma onset in a subset of mice, UVB universally reduced tumor latency and induced gene mutations relevant to the human disease. Genomic analyses uncovered distinct mutational signatures specific to each UV spectrum. The UVB-specific signature was biased for mutations on the untranscribed DNA strand and closely mirrored mutational signatures enriched in human cutaneous melanoma. The UVA-specific signature mimicked SBS51, a mutational signature found in human uveal melanoma. Distinctions in the trinucleotide patterns of the UVA and UVB signatures suggest that cytosine deamination plays a key role in UVB-mediated melanomagenesis.

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Brandon Murphy

Functional Comparison of HBZ and the Related APH-2 Protein Provides Insight into Human T-Cell Leukemia Virus Type 1 Pathogenesis

UVB mutagenesis differs in Nras- and Braf-mutant mouse models of melanoma

Enhanced BRAF engagement by NRAS mutants capable of promoting melanoma initiation

Can Combination MEK and Akt Inhibition Slay the Giant Congenital Nevus?

UVB mutagenesis differs in NRAS- and BRAF-mutant mouse models of melanoma

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