Origins of Human Neuropathology: The Significance of Teneurin-Latrophilin Interaction

Origins of Human Neuropathology: The Significance of Teneurin-Latrophilin Interaction PDF Author: David A. Lovejoy
Publisher: Frontiers Media SA
ISBN: 2889638588
Category :
Languages : en
Pages : 256

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Book Description
We are delighted to introduce this new special issue on “The Origins of Neuropathology: The Roles of Teneurins and Latrophilins”. Although the title may seem particularly bold, and indeed, perhaps presumptuous, we the editors, think our title well warranted based on the findings and interpretation provided by a dedicated group of researchers who have developed this field over the last 25 years. In this publication, we introduce the readers to researchers whom have pioneered this field, and those whom have played an essential role in developing this research direction. Now, together, their combined work have elucidated a novel ligandreceptor network that evolved during the earliest period of animal evolution, and has fostered a new insight into the ancient evolutionary organization of the central nervous system (CNS). Specifically, this work offers a new understanding of several aspects of neuropathology including degenerative, psychiatric and mood disorders and, furthermore, illuminates a fundamental role that teneurins and latrophilins play in cell-to-cell metabolism that may be associated with various forms of cancer both within and outside of the brain. In 1994, the laboratories of Professors Ron Wides in Israel and Ruth Chiquet-Ehrismann working in Switzerland, independently reported the existence of a novel transmembrane protein and its gene in Drosophila. A complex gene/protein, its closest homologue was that of the tenascins. The gene was named either odd oz (odz) or tenascin major (ten-m) by these researchers. Subsequent studies indicated that the gene was highly expressed in the brains of vertebrates and the term ‘teneurin’ was coined to reflect both its relationship with tenascins and with the CNS. Around the same time as these studies, a novel G protein-coupled receptor was identified by Yuri Ushkaryov and his team in the United Kingdom (in fact the latrophilins then named CIRL, calcium-independent receptor for a-latrotoxin, was first identified by the group of Petrenko at NYU Medical Center in New York, USA), which was subsequently established as a cognate receptor for the teneurins. This receptor was later termed as the latrophilins and more recently ‘Adhesion receptor G-protein coupled receptor, family L or ADGRL. In Part 1 of this publication, the early history on the origin and discovery of teneurins has been described by Stefan Baumgartner and Ron Wides; Ron Wides; and Richard Tucker. Recent structural studies by Verity Jackson and her colleagues, as well as Demet Arae¸ and Jingxian Li have provided molecular models to understand how teneurins are ensconced in the plasma membrane and play a role in synaptic interaction. In addition, their work integrates the molecular mechanisms with the early evolution of both teneurins and latrophilins. In Part 2, four studies build upon the evolutionary development of teneurins by examining its role in nematodes by Ulrike Topf and Krzysztof Drabikowski, a model of teneurin action in the Drosophilia nervous system by Alison DePew and associates; and two studies on fish. Angela Cheung and her colleagues describe the neurological function and expression in zebrafish, whereas Ross Reid and his coworkers have described novel actions of the teneurins with respect to metabolism in fish. Part 3 of this publication is focused on the latrophilins and is led off by Yuri Ushkaryov and his team describing the discovery, structure and function of the latrophilins. This work is followed by a review by Ana Moreno-Salinas and colleagues in Antony Boucard´s laboratory describing the structure of the latrophilins and its interaction with associated transmembrane proteins with respect to adhesion, neuronal function and pathology. The following paper, by Torsten Schönberg and Simone Prömel links the previous papers with a comparison of teneurin and latrophilin interactions in invertebrates and vertebrates. Finally, in this section, Peter Burbach and Dimphna Meijer provide an interesting overview of the relationship of teneurins and latrophilins with respect to other proteins described in these other papers. Together, these studies provide a novel understanding of how the teneurins and latrophilins interact in a complex set of associated proteins. The next section (Part 4) of the publication focuses on the development and maintenance of the CNS in mammals. Here, Catherine Leamey and Atomu Sawatari lead off with a discussion of the role of teneurin-associated neuro-circuit formation using knockout studies in mice. A detailed review by Luciane Sita and her colleagues in the Bittencourt laboratory frames this and previous studies in a comparative neuroanatomical background, and in addition, provides a neuroanatomical rationale for new studies associated with other regions of the CNS. Building upon these studies, David Hogg and his coworkers include a review on the behavioral actions of the teneurin C-terminal associated peptide (TCAP) in mammals and its potential relationship to brain metabolism and forms of neuropathology. Finally, in this section, a study by Gesttner Tessarin in the Casatti laboratory shows for the first time, teneurins may be associated with astrocyte function, indicating a novel function for teneurins with respect to some glial-based disorders in the brain. Finally in our last section, we have provided some studies on the potential roles of the teneurins and latrophilins with respect to carcinogenesis. Although these studies are somewhat removed from our treatise on the role of teneurins and latrophilins with respect to neuronal development, maintenance and pathology, they provide interesting observations that may be relevant to some types of CNS pathology. Thus, Boris Rebolledo-Jaramillo and Annemarie Ziegler include a review on the relationship of teneurins to several types of cancers. This is followed by a research report by Mia Husić and her colleagues suggesting that the TCAP region of the teneurins could play a role in modulating the adhesion of the cancer-like cell line, HEK293 and finally, Sussy Bastias-Candia and associates have provided novel data on the role of teneurin-3 with respect to Wnt signalling and have discussed its potential role in neural development and carcinogenesis. Overall, we posit that the teneurins and latrophilins played a major role in the early evolution of the nervous system and may underlie the etiology of a number of neurological disorders that are thus-far misunderstood. Indeed, we hope that this publication will stimulate further research into the actions of teneurins and latrophilins and lead to novel approaches of understanding and ultimately treatment. Obituary: Ruth Chiquet-Ehrismann (1954-2015): A Teneurin Pioneer A major player in the discovery and characterization of teneurins was the Swiss scientist, Ruth Chiquet-Ehrismann. Dr. Chiquet-Ehrismann had a long-standing interest in cell-cell and cell-extracellular matrix interactions, particularly during development and tumorigenesis. She earned her Ph.D. at the ETH Zurich under the mentorship of David C. Turner, where she performed early work on the cell and heparin-binding sites of fibronectin. Shortly after joining the Friedrich Miescher Institute in Basel as a junior group leader in 1984, Ruth, in collaboration with Eleanor J. Mackie and Teruyo Sakakura, published a paper in Cell describing an extracellular matrix glycoprotein that she named “tenascin”. A key observation made in this widely cited paper was the presence of tenascin in the extracellular matrix of embryonic tissues and the stroma of breast cancer, but its absence from most normal adult tissues. We now know that the original “tenascin” was the founding member of a diverse gene family, and that members of this family promote cell motility, proliferation and differentiation in a variety of tissue environments, both normal and pathological. But in the early 1990s, it was unclear how tenascins functioned. Specifically, its receptors and binding partners were not understood. Subsequently, Ruth engaged in a multi-pronged approach to studying tenascin function in an attempt to identify its homologues in Drosophila. This work, led by her postdoctoral fellow Dr. Stefan Baumgartner, resulted in the discovery of a novel family of type-2 transmembrane proteins that they named ten-a and ten-m, for “tenascin-like proteins accessory and major”. When the homologues of ten-a and ten-m were found in vertebrates and they were shown to be highly expressed in the nervous system, Ruth proposed the name “teneurins”. This name combined the names of the original proteins from Drosophila with neurons, which appeared to be their most prominent site of expression. From that point onward, Ruth’s research group at the Friedrich Miescher Institute studied two topics: the roles of tenascins in cancer and the roles of teneurins in development. Using numerous model systems, her research included studies of teneurins in arthropods (Drosophila), nematodes (C. elegans) and chordates (birds and humans). Key firsts that came from Ruth’s laboratory include the cloning and sequencing of human teneurins, experimental evidence of teneurin processing by furin and the potential nuclear localization of the intracellular domain, the ability of teneurins to promote growth cone spreading, patterning defects in teneurin knockout animals, a description of the ancient origins of teneurins via horizontal gene transfer, the complementary expression patterns of different teneurins during development, the cytotoxic properties of the teneurin C-terminal domain, and the presence of homotypic adhesion domains in teneurins. Since 1994, Ruth’s group published 24 papers on the cloning, expression, origins and functions of teneurins. Contributing to these papers were 15 graduate students and postdoctoral fellows, often with the expert technical guidance of Jacqueline Ferralli, Marianne Brown-Luedi and Doris Martin. This work has provided a foundation for a new generation of researchers in the field of teneurins. Ruth Chiquet-Ehrismann passed away at her home near Basel on September 4, 2015. She is survived by her husband and collaborator Matthias Chiquet, three children, Daniel, Patrice and Fabian, and an expanding cohort of grandchildren. Richard P. Tucker Davis, California

Origins of Human Neuropathology: The Significance of Teneurin-Latrophilin Interaction

Origins of Human Neuropathology: The Significance of Teneurin-Latrophilin Interaction PDF Author: David A. Lovejoy
Publisher: Frontiers Media SA
ISBN: 2889638588
Category :
Languages : en
Pages : 256

Get Book Here

Book Description
We are delighted to introduce this new special issue on “The Origins of Neuropathology: The Roles of Teneurins and Latrophilins”. Although the title may seem particularly bold, and indeed, perhaps presumptuous, we the editors, think our title well warranted based on the findings and interpretation provided by a dedicated group of researchers who have developed this field over the last 25 years. In this publication, we introduce the readers to researchers whom have pioneered this field, and those whom have played an essential role in developing this research direction. Now, together, their combined work have elucidated a novel ligandreceptor network that evolved during the earliest period of animal evolution, and has fostered a new insight into the ancient evolutionary organization of the central nervous system (CNS). Specifically, this work offers a new understanding of several aspects of neuropathology including degenerative, psychiatric and mood disorders and, furthermore, illuminates a fundamental role that teneurins and latrophilins play in cell-to-cell metabolism that may be associated with various forms of cancer both within and outside of the brain. In 1994, the laboratories of Professors Ron Wides in Israel and Ruth Chiquet-Ehrismann working in Switzerland, independently reported the existence of a novel transmembrane protein and its gene in Drosophila. A complex gene/protein, its closest homologue was that of the tenascins. The gene was named either odd oz (odz) or tenascin major (ten-m) by these researchers. Subsequent studies indicated that the gene was highly expressed in the brains of vertebrates and the term ‘teneurin’ was coined to reflect both its relationship with tenascins and with the CNS. Around the same time as these studies, a novel G protein-coupled receptor was identified by Yuri Ushkaryov and his team in the United Kingdom (in fact the latrophilins then named CIRL, calcium-independent receptor for a-latrotoxin, was first identified by the group of Petrenko at NYU Medical Center in New York, USA), which was subsequently established as a cognate receptor for the teneurins. This receptor was later termed as the latrophilins and more recently ‘Adhesion receptor G-protein coupled receptor, family L or ADGRL. In Part 1 of this publication, the early history on the origin and discovery of teneurins has been described by Stefan Baumgartner and Ron Wides; Ron Wides; and Richard Tucker. Recent structural studies by Verity Jackson and her colleagues, as well as Demet Arae¸ and Jingxian Li have provided molecular models to understand how teneurins are ensconced in the plasma membrane and play a role in synaptic interaction. In addition, their work integrates the molecular mechanisms with the early evolution of both teneurins and latrophilins. In Part 2, four studies build upon the evolutionary development of teneurins by examining its role in nematodes by Ulrike Topf and Krzysztof Drabikowski, a model of teneurin action in the Drosophilia nervous system by Alison DePew and associates; and two studies on fish. Angela Cheung and her colleagues describe the neurological function and expression in zebrafish, whereas Ross Reid and his coworkers have described novel actions of the teneurins with respect to metabolism in fish. Part 3 of this publication is focused on the latrophilins and is led off by Yuri Ushkaryov and his team describing the discovery, structure and function of the latrophilins. This work is followed by a review by Ana Moreno-Salinas and colleagues in Antony Boucard´s laboratory describing the structure of the latrophilins and its interaction with associated transmembrane proteins with respect to adhesion, neuronal function and pathology. The following paper, by Torsten Schönberg and Simone Prömel links the previous papers with a comparison of teneurin and latrophilin interactions in invertebrates and vertebrates. Finally, in this section, Peter Burbach and Dimphna Meijer provide an interesting overview of the relationship of teneurins and latrophilins with respect to other proteins described in these other papers. Together, these studies provide a novel understanding of how the teneurins and latrophilins interact in a complex set of associated proteins. The next section (Part 4) of the publication focuses on the development and maintenance of the CNS in mammals. Here, Catherine Leamey and Atomu Sawatari lead off with a discussion of the role of teneurin-associated neuro-circuit formation using knockout studies in mice. A detailed review by Luciane Sita and her colleagues in the Bittencourt laboratory frames this and previous studies in a comparative neuroanatomical background, and in addition, provides a neuroanatomical rationale for new studies associated with other regions of the CNS. Building upon these studies, David Hogg and his coworkers include a review on the behavioral actions of the teneurin C-terminal associated peptide (TCAP) in mammals and its potential relationship to brain metabolism and forms of neuropathology. Finally, in this section, a study by Gesttner Tessarin in the Casatti laboratory shows for the first time, teneurins may be associated with astrocyte function, indicating a novel function for teneurins with respect to some glial-based disorders in the brain. Finally in our last section, we have provided some studies on the potential roles of the teneurins and latrophilins with respect to carcinogenesis. Although these studies are somewhat removed from our treatise on the role of teneurins and latrophilins with respect to neuronal development, maintenance and pathology, they provide interesting observations that may be relevant to some types of CNS pathology. Thus, Boris Rebolledo-Jaramillo and Annemarie Ziegler include a review on the relationship of teneurins to several types of cancers. This is followed by a research report by Mia Husić and her colleagues suggesting that the TCAP region of the teneurins could play a role in modulating the adhesion of the cancer-like cell line, HEK293 and finally, Sussy Bastias-Candia and associates have provided novel data on the role of teneurin-3 with respect to Wnt signalling and have discussed its potential role in neural development and carcinogenesis. Overall, we posit that the teneurins and latrophilins played a major role in the early evolution of the nervous system and may underlie the etiology of a number of neurological disorders that are thus-far misunderstood. Indeed, we hope that this publication will stimulate further research into the actions of teneurins and latrophilins and lead to novel approaches of understanding and ultimately treatment. Obituary: Ruth Chiquet-Ehrismann (1954-2015): A Teneurin Pioneer A major player in the discovery and characterization of teneurins was the Swiss scientist, Ruth Chiquet-Ehrismann. Dr. Chiquet-Ehrismann had a long-standing interest in cell-cell and cell-extracellular matrix interactions, particularly during development and tumorigenesis. She earned her Ph.D. at the ETH Zurich under the mentorship of David C. Turner, where she performed early work on the cell and heparin-binding sites of fibronectin. Shortly after joining the Friedrich Miescher Institute in Basel as a junior group leader in 1984, Ruth, in collaboration with Eleanor J. Mackie and Teruyo Sakakura, published a paper in Cell describing an extracellular matrix glycoprotein that she named “tenascin”. A key observation made in this widely cited paper was the presence of tenascin in the extracellular matrix of embryonic tissues and the stroma of breast cancer, but its absence from most normal adult tissues. We now know that the original “tenascin” was the founding member of a diverse gene family, and that members of this family promote cell motility, proliferation and differentiation in a variety of tissue environments, both normal and pathological. But in the early 1990s, it was unclear how tenascins functioned. Specifically, its receptors and binding partners were not understood. Subsequently, Ruth engaged in a multi-pronged approach to studying tenascin function in an attempt to identify its homologues in Drosophila. This work, led by her postdoctoral fellow Dr. Stefan Baumgartner, resulted in the discovery of a novel family of type-2 transmembrane proteins that they named ten-a and ten-m, for “tenascin-like proteins accessory and major”. When the homologues of ten-a and ten-m were found in vertebrates and they were shown to be highly expressed in the nervous system, Ruth proposed the name “teneurins”. This name combined the names of the original proteins from Drosophila with neurons, which appeared to be their most prominent site of expression. From that point onward, Ruth’s research group at the Friedrich Miescher Institute studied two topics: the roles of tenascins in cancer and the roles of teneurins in development. Using numerous model systems, her research included studies of teneurins in arthropods (Drosophila), nematodes (C. elegans) and chordates (birds and humans). Key firsts that came from Ruth’s laboratory include the cloning and sequencing of human teneurins, experimental evidence of teneurin processing by furin and the potential nuclear localization of the intracellular domain, the ability of teneurins to promote growth cone spreading, patterning defects in teneurin knockout animals, a description of the ancient origins of teneurins via horizontal gene transfer, the complementary expression patterns of different teneurins during development, the cytotoxic properties of the teneurin C-terminal domain, and the presence of homotypic adhesion domains in teneurins. Since 1994, Ruth’s group published 24 papers on the cloning, expression, origins and functions of teneurins. Contributing to these papers were 15 graduate students and postdoctoral fellows, often with the expert technical guidance of Jacqueline Ferralli, Marianne Brown-Luedi and Doris Martin. This work has provided a foundation for a new generation of researchers in the field of teneurins. Ruth Chiquet-Ehrismann passed away at her home near Basel on September 4, 2015. She is survived by her husband and collaborator Matthias Chiquet, three children, Daniel, Patrice and Fabian, and an expanding cohort of grandchildren. Richard P. Tucker Davis, California

Developmental Neuropathology

Developmental Neuropathology PDF Author: Reinhard L. Friede
Publisher: Springer Science & Business Media
ISBN: 3642736971
Category : Medical
Languages : en
Pages : 591

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Book Description
I was gratified by the most favorable reception and wide usage received by the first edition of this book. A decade seems to be a short period for a book on pathology, and yet it witnessed many important changes of concepts, along with a formidable growth of knowledge. The second edition required extensive reorganization. There are new chapters on mitochondriopathies, on peroxisomal diseases and on spongy myelino pathies. Major revisions and new additions were necessary in many chapters, for instance those on the dysplasias of the cerebral and of the cerebellar hemispheres, which were largely reorganized. The chapters on perinatal pathology were reordered and reorganized to give a more logical sequence of prenatal, perinatal and postnatal lesions. The entire text was worked over for brevity. A wealth of new references was added with the. aim of staying abreast with the literature up to summer 1988. All refer ences were double checked for errors. My gratitude goes to Mrs. Gisela Ropte and Mrs. Cynthia Bunker for their untiring, diligent help. As a result, this second edition is an essentially rewritten text. Advance in the prevention of human suffering is based on a thorough understand ing of the nature of disease. I hope that this text will continue to be of service in this behalf. Perhaps it may also reflect and foster the intellectual curiosity which makes the "reading of brains" so interesting an occupation. Gottingen, 1989 Reinhard L.

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The Human Brain During the Second Trimester PDF Author: Shirley A. Bayer
Publisher: CRC Press
ISBN: 0203507487
Category : Medical
Languages : en
Pages : 378

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Book Description
The brain in the second trimester, the subject of Volume 3, is nearing anatomical maturity throughout the brainstem. In contrast, the neurogenesis and neuronal migration are still in progress in the cerebral cortex and cerebellum. Consequently, the authors chose to focus on the migration, sojourning, and settling of the neuronal populations belo

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Neuroinflammation and Schizophrenia PDF Author: Golam M. Khandaker
Publisher: Springer
ISBN: 9783030391409
Category : Medical
Languages : en
Pages : 244

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Book Description
This book provides a comprehensive summary of the cutting edge scientific evidence regarding the role of immune system in the pathogenesis and treatment of schizophrenia and related psychotic disorders. It illustrates the role of inflammation and immunity in schizophrenia drawing on both basic science and clinical research. The chapters provide up-to-date summaries of immunological risk factors for schizophrenia and related psychotic disorders, and underlying mechanisms as informed by neuroimaging, genetic, clinical and animal experimental studies. In addition, the book will illuminate the scope for immunological treatment for schizophrenia.

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The Schizophrenic Disorders PDF Author: Manfred Bleuler
Publisher:
ISBN: 9780783732831
Category : Schizophrenia
Languages : en
Pages : 553

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Book Description


The Triune Brain in Evolution

The Triune Brain in Evolution PDF Author: P.D. MacLean
Publisher: Springer Science & Business Media
ISBN: 9780306431685
Category : Medical
Languages : en
Pages : 718

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Book Description
"This is MacLean's major work on the evolutionary development of the human brain. In its evolution the human forebrain expands along the lines of three basic formations that anatomical and biochemically reflect an ancestral relationship, respectively, to reptiles, early mammals, and late mammals. MacLean describes this as the Triune Brain."--Amazon.com viewed July 29, 2020

The Concept of Mind

The Concept of Mind PDF Author: Gilbert Ryle
Publisher:
ISBN: 9781774645215
Category :
Languages : en
Pages : 0

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Book Description
The Concept of Mind by philosopher Gilbert Ryle argues that "mind" is "a philosophical illusion hailing chiefly from René Descartes and sustained by logical errors and 'category mistakes' which have become habitual." The work has been cited as having "put the final nail in the coffin of Cartesian dualism," and has been seen as a founding document in the philosophy of mind, which received professional recognition as a distinct and important branch of philosophy only after 1950. This now-classic work challenges what Ryle calls philosophy's "official theory," the Cartesians "myth" of the separation of mind and matter. Ryle's linguistic analysis remaps the conceptual geography of mind. His plain language and essentially simple purpose place him in the traditioin of Locke, Berkeley, Mill, and Russell.

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The Oxford Handbook of Dante PDF Author: Manuele Gragnolati
Publisher: Oxford University Press
ISBN: 0198820747
Category : Literary Criticism
Languages : en
Pages : 778

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Book Description
Offers an original and innovative assessment of Dante's oeuvre and the medical context, Provides critical tools for approaching Dante and medieval culture, Engages with the multifaceted character of Dante and his works, Brings together a plurality of voices from different countries, disciplines, and traditions Book jacket.

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The Origin and Treatment of Schizophrenic Disorders PDF Author: Theodore Lidz
Publisher:
ISBN: 9780823682065
Category : Schizophrenia
Languages : en
Pages : 0

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Book Description


Pornography

Pornography PDF Author: Mari Mikkola
Publisher: Oxford University Press
ISBN: 019064009X
Category : Philosophy
Languages : en
Pages : 343

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Book Description
Debates over pornography tend to be heated and deeply polarized--as with other topics that have to do with sex, pornography cuts to the core of our values and convictions. Philosophical debates concerning pornography are fraught with difficult questions: What is pornography? What does pornography do (if anything at all)? Is the consumption of pornography a harmless private matter, or does pornography violate women's civil rights? What, if anything, should legally be done about pornography? Can there be a genuinely feminist pro-pornography stance? Answering these questions is complicated by widespread confusion over the conceptual and political commitments of different anti- and pro-pornography positions, and whether these positions are even in tension with one another. For a start, different people understand pornography differently and can easily end up talking past one another. In order to clarify the debate and make genuine philosophical headway in discussing the topic of pornography, Mari Mikkola here provides an accessible introduction to contemporary philosophical debates conducted from a feminist philosophical perspective. The starting point of the book's examination is morally neutral, and the book provides a comprehensive discussion of various philosophical positions on pornography that are found in ethics, aesthetics, feminist philosophy, political philosophy, epistemology, and social ontology. The book clarifies different stances in the debate, thus clarifying and helping readers to understand what exactly is as stake. In addition, although the book does not argue for a single outlook, it puts forward substantive philosophical views on different aspects of philosophical debates about pornography. Mikkola ultimately offers readers important methodological insights about doing philosophical work on something as ubiquitous as pornography.