Elyse K. Paterson scite author profile

Invadopodia and podosomes are discrete, actin-based molecular protrusions that form in cancer cells and normal cells, respectively, in response to diverse signaling pathways and extracellular matrix cues. Although they participate in a host of different cellular processes, they share a common functional theme of controlling pericellular proteolytic activity, which sets them apart from other structures that function in migration and adhesion, including focal adhesions, lamellipodia, and filopodia. In this review, we highlight research that explores the function of these complex structures, including roles for podosomes in embryonic and postnatal development, in angiogenesis and remodeling of the vasculature, in maturation of the postsynaptic membrane, in antigen sampling and recognition, and in cell-cell fusion mechanisms, as well as the involvement of invadopodia at multiple steps of the metastatic cascade, and how all of this may apply in the treatment of human disease states. Finally, we explore recent research that implicates a novel role for exosomes and microvesicles in invadopodiadependent and invadopodia-independent mechanisms of invasion, respectively.

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9‐cis retinoic acid is the ALDH1A1 product that stimulates melanogenesis

Paterson

Kapadia

et al. 2013

Experimental Dermatology

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Aldehyde dehydrogenase 1A1 (ALDH1A1), an enzyme that catalyzes the conversion of lipid aldehydes to lipid carboxylic acids, plays pleiotropic roles in UV-radiation resistance, melanogenesis, and stem cell maintenance. In this study, a combination of RNAi and pharmacologic approaches were used to determine which ALDH1A1 substrates and products regulate melanogenesis. Initial studies revealed that neither the UV-induced lipid aldehyde 4-hydroxy-2-nonenal nor the ALDH1A1 product all-trans retinoic acid appreciably induced melanogenesis. In contrast, both the ALDH1A1 substrate 9-cis retinal and its corresponding product 9-cis retinoic acid potently induced the accumulation of MITF mRNA, Tyrosinase mRNA, and melanin. ALDH1A1 depletion inhibited the ability of 9-cis retinal but not 9-cis retinoic acid to stimulate melanogenesis, indicating that ALDH1A1 regulates melanogenesis by catalyzing the conversion of 9-cis retinal to 9-cis retinoic acid. The addition of potent ALDH1A inhibitors (cyanamide or Angeli’s salt) suppressed Tyrosinase and MITF mRNA accumulation in vitro and also melanin accumulation in skin equivalents, suggesting that 9-cis retinoids regulate melanogenesis in the intact epidermis. Taken together, these studies not only identify cyanamide as a potential novel treatment for hyperpigmentary disorders, but also identify 9-cis retinoic acid as a pigment stimulatory agent that may have clinical utility in the treatment of hypopigmentary disorders, such as vitiligo.

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Tyrosinase Depletion Prevents the Maturation of Melanosomes in the Mouse Hair Follicle

et al. 2015

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The mechanisms that lead to variation in human skin and hair color are not fully understood. To better understand the molecular control of skin and hair color variation, we modulated the expression of Tyrosinase (Tyr), which controls the rate-limiting step of melanogenesis, by expressing a single-copy, tetracycline-inducible shRNA against Tyr in mice. Moderate depletion of TYR was sufficient to alter the appearance of the mouse coat in black, agouti, and yellow coat color backgrounds, even though TYR depletion did not significantly inhibit accumulation of melanin within the mouse hair. Ultra-structural studies revealed that the reduction of Tyr inhibited the accumulation of terminal melanosomes, and inhibited the expression of genes that regulate melanogenesis. These results indicate that color in skin and hair is determined not only by the total amount of melanin within the hair, but also by the relative accumulation of mature melanosomes.

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Control of T cell metabolism and regulatory T cell generation by a DRAK2/p70S6K1 signaling axis (113.19)

Hernandez

Michalek

Weist

et al. 2011

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The delicate balance between effector T cells (Teff cells) and regulatory T cells (Treg cells) is crucial for preventing autoimmunity while maintaining efficient immune function. Mice deficient in the serine/threonine kinase, Dap Related Apoptosis inducing Kinase 2 (DRAK2), are resistant to T cell-mediated organ-specific autoimmune diseases yet retain antiviral immunity. Here we show that DRAK2 dictates the fate of a naïve T cells by regulating their metabolism. This is achieved through amplifying the activity of p70S6K1 in a parallel manner to mTORC1, which leads to an increase in glycolytic metabolism, a process required for Teff cell survival. In addition, we find that the inhibition of the DRAK2/p70S6K1 axis promotes the generation of Treg cells similar to mTORC1 inhibition with rapamycin. By regulating T cell metabolism and Treg cell generation, the DRAK2/p70S6K1 signaling axis orchestrates the balance between Teff cells and Treg cells. Blockade of DRAK2, which is most highly expressed in lymphocytes, may offer an alternative and selective approach vs. rapamycin in the suppression of autoimmunity.

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Pigment Production Analysis in Human Melanoma Cells

Hopkin

Paterson

Ruiz

et al. 2016

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The human epidermal melanocyte is a highly specialized pigmented cell that serves to protect the epidermis from ultraviolet (UV) damage through the production of melanin, or melanogenesis. Misregulation in melanogenesis leading to either hyper- or hypo-pigmentation is found in human diseases such as malasma and vitiligo. Current therapies for these diseases are largely unsuccessful and the need for new therapies is necessary. In order to identify genes and or compounds that can alter melanogenesis, methods are required that can detect changes in pigment production as well as expression of key melanogenesis transcription factors and enzymes. Here we describe methods to detect changes in melanogenesis in a human melanoma cell line, MNT-1, by (1) analyzing pigment production by measuring the absorbance of melanin present by spectrophotometry, (2) analyzing transcript expression of potent regulators of melanogenesis by qunatitative reverse-transcription (RT)PCR and (3) analyzing protein expression of potent regulators of melanogenesis by Western blot (WB).

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Elyse K. Paterson

Invadosomes are coming: new insights into function and disease relevance

9‐cis retinoic acid is the ALDH1A1 product that stimulates melanogenesis

Tyrosinase Depletion Prevents the Maturation of Melanosomes in the Mouse Hair Follicle

Control of T cell metabolism and regulatory T cell generation by a DRAK2/p70S6K1 signaling axis (113.19)

Pigment Production Analysis in Human Melanoma Cells

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