Philip S. Goff scite author profile

Dynamic mapping of extracellular pH (pHe) at the single-cell level is critical for understanding the role of H+ in cellular and subcellular processes, with particular importance in cancer. While several pHe sensing techniques have been developed, accessing this information at the single-cell level requires improvement in sensitivity, spatial and temporal resolution. We report on a zwitterionic label-free pH nanoprobe that addresses these long-standing challenges. The probe has a sensitivity > 0.01 units, 2 ms response time, and 50 nm spatial resolution. The platform was integrated into a double-barrel nanoprobe combining pH sensing with feedback-controlled distance dependance via Scanning Ion Conductance Microscopy. This allows for the simultaneous 3D topographical imaging and pHe monitoring of living cancer cells. These classes of nanoprobes were used for real-time high spatiotemporal resolution pHe mapping at the subcellular level and revealed tumour heterogeneity of the peri-cellular environments of melanoma and breast cancer cells.

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Rab27a co-ordinates actin-dependent transport by controlling organelle-associated motors and track assembly proteins

Alzahofi

Welz

Robinson

et al. 2020

Nat Commun

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Cell biologists generally consider that microtubules and actin play complementary roles in long-and short-distance transport in animal cells. On the contrary, using melanosomes of melanocytes as a model, we recently discovered that the motor protein myosin-Va works with dynamic actin tracks to drive long-range organelle dispersion in opposition to microtubules. This suggests that in animals, as in yeast and plants, myosin/actin can drive longrange transport. Here, we show that the SPIRE-type actin nucleators (predominantly SPIRE1) are Rab27a effectors that cooperate with formin-1 to generate actin tracks required for myosin-Va-dependent transport in melanocytes. Thus, in addition to melanophilin/myosin-Va, Rab27a can recruit SPIREs to melanosomes, thereby integrating motor and track assembly activity at the organelle membrane. Based on this, we suggest a model in which organelles and force generators (motors and track assemblers) are linked, forming an organelle-based, cell-wide network that allows their collective activity to rapidly disperse the population of organelles long-distance throughout the cytoplasm.

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Isolation, Culture, and Transfection of Melanocytes

et al. 2014

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Located in the basal epidermis and hair follicles, melanocytes of the integument are responsible for its coloration through production of melanin pigments. Melanin is produced in lysosomal‐like organelles called melanosomes. In humans, this skin pigmentation acts as an ultraviolet radiation filter. Abnormalities in the division of melanocytes are quite common, with potentially oncogenic growth usually followed by cell senescence producing benign naevi (moles), or occasionally melanoma. Therefore, melanocytes are a useful model for studying melanoma, as well as pigmentation and organelle transport and the diseases affecting these mechanisms. This chapter focuses on the isolation, culture, and transfection of human and murine melanocytes. The first basic protocol describes the primary culture of melanocytes from human skin and the maintenance of growing cultures. The second basic protocol details the subculture and preparation of mouse keratinocyte feeder cells. The primary culture of melanocytes from mouse skin is described in the third basic protocol, and, lastly, the fourth basic protocol outlines a technique for transfecting melanocytes and melanoma cells. Curr. Protoc. Cell Biol. 63:1.8.1‐1.8.20. © 2014 by John Wiley & Sons, Inc.

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Rab27a co-ordinates actin-dependent transport by controlling organelle-associated motors and track assembly proteins

Alzahofi

Robinson

Welz

et al. 2018

Preprint

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This 'highways and local roads' model suggests that MTs are tracks for long-range transport (highways) between the cell centre and periphery, driven by kinesin and dynein motors. Meanwhile AFs (local roads) and myosin motors work down-stream picking up cargo at the periphery and transporting it for the 'last m' to its final destination. This model makes intuitive sense as MTs in animal cells in culture typically form a polarised radial network of tracks spanning >10 m from the centrally located centrosome to the periphery and appear ideally distributed for long-distance transport. Meanwhile, with some exceptions in which AFs form uniformly polarised arrays, e.g. lamellipodia, filopodia and dendritic spines, AF architecture appears much more complex. In many fixed cells AF appear to comprise populations of short (1-2 m length), with random or anti-parallel filament polarity, and not an obvious system of tracks for directed transport 5,6 . This view is exemplified by the co-operative capture (CC) model of melanosome transport in melanocytes 7,8 . Skin melanocytes make pigmented melanosomes and then distribute them, via dendrites, to adjacent keratinocytes, thus providing pigmentation and photo-protection (reviewed in 9 ). The CC model proposes that transport of melanosomes into dendrites occurs by sequential longdistance transport from the cell body into dendrites along MTs (propelled by kinesin/dynein motors), followed by AF/myosin-Va dependent tethering in the dendrites. Consistent with this, in myosin-Va-null cells melanosomes move bi-directionally along MTs into dendrites, but do not accumulate therein, and instead cluster in the cell body 7,10 . This defect results in partial albinism in mammals due to uneven pigment transfer from melanocytes to keratinocytes (e.g. dilute mutant mouse and human Griscelli syndrome (GS) type I patients; Figure 1A) 11,12 . Subsequent studies revealed similar defects in mutant mice (and human GS types II and III patients) lacking the small

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The E3 ligase APC/C ^Cdh1 promotes ubiquitylation-mediated proteolysis of PAX3 to suppress melanocyte proliferation and melanoma growth

et al. 2015

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The anaphase-promoting complex or cyclosome with the subunit Cdh1 (APC/C(Cdh1)) is an E3 ubiquitin ligase involved in the control of the cell cycle. Here, we identified sporadic mutations occurring in the genes encoding APC components, including Cdh1, in human melanoma samples and found that loss of APC/C(Cdh1) may promote melanoma development and progression, but not by affecting cell cycle regulatory targets of APC/C. Most of the mutations we found in CDH1 were those associated with ultraviolet light (UV)-induced melanomagenesis. Compared with normal human skin tissue and human or mouse melanocytes, the abundance of Cdh1 was decreased and that of the transcription factor PAX3 was increased in human melanoma tissue and human or mouse melanoma cell lines, respectively; Cdh1 abundance was further decreased with advanced stages of human melanoma. PAX3 was a substrate of APC/C(Cdh1) in melanocytes, and APC/C(Cdh1)-mediated ubiquitylation marked PAX3 for proteolytic degradation in a manner dependent on the D-box motif in PAX3. Either mutating the D-box in PAX3 or knocking down Cdh1 prevented the ubiquitylation and degradation of PAX3 and increased proliferation and melanin production in melanocytes. Knocking down Cdh1 in melanoma cells in culture or before implantation in mice promoted doxorubicin resistance, whereas reexpressing wild-type Cdh1, but not E3 ligase-deficient Cdh1 or a mutant that could not interact with PAX3, restored doxorubicin sensitivity in melanoma cells both in culture and in xenografts. Thus, our findings suggest a tumor suppressor role for APC/C(Cdh1) in melanocytes and that targeting PAX3 may be a strategy for treating melanoma.

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Measurement of Melanin Metabolism in Live Cells by [U-13C]-L-Tyrosine Fate Tracing Using Liquid Chromatography-Mass Spectrometry

Chen

Zhou

Abdel‐Malek

et al. 2021

Journal of Investigative Dermatology

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Isolation, Culture, and Transfection of Melanocytes

et al. 2023

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Located in the basal epidermis and hair follicles, melanocytes of the integument are responsible for its coloration through production of melanin pigments. Melanin is produced in a type of lysosome‐related‐organelle (LRO) called the melanosome. In humans, this skin pigmentation acts as an ultraviolet radiation filter. Abnormalities in the division of melanocytes are quite common, with potentially oncogenic growth usually followed by cell senescence producing benign naevi (moles), or occasionally, melanoma. Therefore, melanocytes are a useful model for studying both cellular senescence and melanoma, as well as many other aspects of biology such as pigmentation, organelle biogenesis and transport, and the diseases affecting these mechanisms. Melanocytes for use in basic research can be obtained from a range of sources, including surplus postoperative skin or from congenic murine skin. Here we describe methods to isolate and culture melanocytes from both human and murine skin (including the preparation of mitotically inactive keratinocytes for use as feeder cells). We also describe a high‐throughput transfection protocol for human melanocytes and melanoma cells. © 2023 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Primary explantation of human melanocytic cells Basic Protocol 2: Preparation of keratinocyte feeder cells for use in the primary culture of mouse melanocytes Basic Protocol 3: Primary culture of melanocytes from mouse skin Basic Protocol 4: Transfection of human melanocytes and melanoma cells

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Philip S. Goff

BLOC-1 and BLOC-3 regulate VAMP7 cycling to and from melanosomes via distinct tubular transport carriers

High-resolution label-free 3D mapping of extracellular pH of single living cells

Rab27a co-ordinates actin-dependent transport by controlling organelle-associated motors and track assembly proteins

Isolation, Culture, and Transfection of Melanocytes

Rab27a co-ordinates actin-dependent transport by controlling organelle-associated motors and track assembly proteins

The E3 ligase APC/C ^Cdh1 promotes ubiquitylation-mediated proteolysis of PAX3 to suppress melanocyte proliferation and melanoma growth

Measurement of Melanin Metabolism in Live Cells by [U-13C]-L-Tyrosine Fate Tracing Using Liquid Chromatography-Mass Spectrometry

Isolation, Culture, and Transfection of Melanocytes

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Philip S. Goff

BLOC-1 and BLOC-3 regulate VAMP7 cycling to and from melanosomes via distinct tubular transport carriers

High-resolution label-free 3D mapping of extracellular pH of single living cells

Rab27a co-ordinates actin-dependent transport by controlling organelle-associated motors and track assembly proteins

Isolation, Culture, and Transfection of Melanocytes

Rab27a co-ordinates actin-dependent transport by controlling organelle-associated motors and track assembly proteins

The E3 ligase APC/C Cdh1 promotes ubiquitylation-mediated proteolysis of PAX3 to suppress melanocyte proliferation and melanoma growth

Measurement of Melanin Metabolism in Live Cells by [U-13C]-L-Tyrosine Fate Tracing Using Liquid Chromatography-Mass Spectrometry

Isolation, Culture, and Transfection of Melanocytes

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The E3 ligase APC/C ^Cdh1 promotes ubiquitylation-mediated proteolysis of PAX3 to suppress melanocyte proliferation and melanoma growth