The TIR-Domain Containing Adaptor TRAM Is Required for TLR7 Mediated RANTES Production Enda Shevlin, Sinéad M. Miggin' Institute of Immunology, Department of Biology, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland Abstract Toll-like receptor 7 (TLR7) plays a vital role in the immune response to ssRNA viruses such as human rhinovirus (HRV) and Influenza, against which there are currently no treatments or vaccines with long term efficacy available. Clearly, a more comprehensive understanding of the TLR7 signaling axis will contribute to its molecular targeting. TRIF related adaptor molecule (TRAM) plays a vital role in TLR4 signaling by recruiting TRIF to TLR4, followed by endosomal trafficking of the complex and initiation of IRF3 dependent type I interferon production as well as NF-kB dependent pro-inflammatory cytokine production. Towards understanding the molecular mechanisms that regulate TLR7 functionality, we found that TRAM murine macrophages exhibited a transcriptional and translational impairment in TLR7 mediated RANTES, but not TNF, production. Suppression of TRAM expression in human macrophages also resulted in an impairment in TLR7 mediated CCLS and IFN-B, but not TNFx, gene induction. Furthermore, suppression of endogenous human TRAM expression in human macrophages significantly impaired RV16 induced CCLS and IFNẞ, but not TNFx gene induction. Additionally, TRAM-G2A dose-dependently inhibited TLR7 mediated activation of CCLS, IFNẞ and IFN reporter genes. TLR7- mediated phosphorylation and nuclear translocation of IRF3 was impaired in TRAM cells. Finally, co-immunoprecip itation studies indicated that TRAM physically interacts with MyD88 upon TLR7 stimulation, but not under basal conditions. Our results clearly demonstrate that TRAM plays a, hitherto unappreciated, role in TLR7 signaling through a novel signaling axis containing, but not limited to, MyD88, TRAM and IRF3 towards the activation of anti-viral immunity. CHAT GPT 4th October 2024 Prompt: Write a 200 word abstract of the Shevlin and Miggin TRAM RANTES 2014 study In their 2014 study, Shevlin and Miggin examine the regulation of RANTES (Regulated upon Activation, Normal T Cell Expressed and Secreted), a chemokine that plays a pivotal role in immune cell recruitment during inflammation. Specifically, the research explores how TLR (Toll-like receptor) signaling influences RANTES expression in response to various inflammatory stimuli. The authors utilize cellular models to investigate the activation of key transcription factors, particularly NF-κB and IRF3, which drive RANTES transcription following TLR activation. The study further elucidates how specific signaling molecules, such as MAP kinases and other upstream kinases, modulate this pathway through phosphorylation events that impact the expression levels of RANTES. Their findings reveal that RANTES production is finely tuned by multiple regulatory mechanisms that respond to different stress signals, underscoring the complexity of the inflammatory response. By employing selective inhibitors, Shevlin and Miggin identify potential targets for reducing excessive RANTES production, suggesting a pathway for therapeutic intervention in inflammatory and autoimmune diseases where chemokine overexpression contributes to disease pathology. This study enhances the understanding of chemokine regulation in immune responses and highlights how modulation of the TLR- RANTES pathway may offer novel strategies for managing chronic inflammatory conditions. The TIR-Domain Containing Adaptor TRAM Is Required for TLR7 Mediated RANTES Production Enda Shevlin, Sinéad M. Miggin' Institute of Immunology, Department of Biology, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland Abstract Toll-like receptor 7 (TLR7) plays a vital role in the immune response to ssRNA viruses such as human rhinovirus (HRV) and Influenza, against which there are currently no treatments or vaccines with long term efficacy available. Clearly, a more comprehensive understanding of the TLR7 signaling axis will contribute to its molecular targeting. TRIF related adaptor molecule (TRAM) plays a vital role in TLR4 signaling by recruiting TRIF to TLR4, followed by endosomal trafficking of the complex and initiation of IRF3 dependent type I interferon production as well as NF-kB dependent pro-inflammatory cytokine production. Towards understanding the molecular mechanisms that regulate TLR7 functionality, we found that TRAM murine macrophages exhibited a transcriptional and translational impairment in TLR7 mediated RANTES, but not TNF, production. Suppression of TRAM expression in human macrophages also resulted in an impairment in TLR7 mediated CCLS and IFN-B, but not TNFx, gene induction. Furthermore, suppression of endogenous human TRAM expression in human macrophages significantly impaired RV16 induced CCLS and IFNẞ, but not TNFx gene induction. Additionally, TRAM-G2A dose-dependently inhibited TLR7 mediated activation of CCLS, IFNẞ and IFN reporter genes. TLR7- mediated phosphorylation and nuclear translocation of IRF3 was impaired in TRAM cells. Finally, co-immunoprecip itation studies indicated that TRAM physically interacts with MyD88 upon TLR7 stimulation, but not under basal conditions. Our results clearly demonstrate that TRAM plays a, hitherto unappreciated, role in TLR7 signaling through a novel signaling axis containing, but not limited to, MyD88, TRAM and IRF3 towards the activation of anti-viral immunity. CHAT GPT 4th October 2024 Prompt: Write a 200 word abstract of the Shevlin and Miggin TRAM RANTES 2014 study In their 2014 study, Shevlin and Miggin examine the regulation of RANTES (Regulated upon Activation, Normal T Cell Expressed and Secreted), a chemokine that plays a pivotal role in immune cell recruitment during inflammation. Specifically, the research explores how TLR (Toll-like receptor) signaling influences RANTES expression in response to various inflammatory stimuli. The authors utilize cellular models to investigate the activation of key transcription factors, particularly NF-κB and IRF3, which drive RANTES transcription following TLR activation. The study further elucidates how specific signaling molecules, such as MAP kinases and other upstream kinases, modulate this pathway through phosphorylation events that impact the expression levels of RANTES. Their findings reveal that RANTES production is finely tuned by multiple regulatory mechanisms that respond to different stress signals, underscoring the complexity of the inflammatory response. By employing selective inhibitors, Shevlin and Miggin identify potential targets for reducing excessive RANTES production, suggesting a pathway for therapeutic intervention in inflammatory and autoimmune diseases where chemokine overexpression contributes to disease pathology. This study enhances the understanding of chemokine regulation in immune responses and highlights how modulation of the TLR- RANTES pathway may offer novel strategies for managing chronic inflammatory conditions.

Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
icon
Related questions
Question
Review article abstract and abstract generated by Chat GPT and identify three issues present in the chat gpt abstract
The TIR-Domain Containing Adaptor TRAM Is Required
for TLR7 Mediated RANTES Production
Enda Shevlin, Sinéad M. Miggin'
Institute of Immunology, Department of Biology, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland
Abstract
Toll-like receptor 7 (TLR7) plays a vital role in the immune response to ssRNA viruses such as human rhinovirus (HRV) and
Influenza, against which there are currently no treatments or vaccines with long term efficacy available. Clearly, a more
comprehensive understanding of the TLR7 signaling axis will contribute to its molecular targeting. TRIF related adaptor
molecule (TRAM) plays a vital role in TLR4 signaling by recruiting TRIF to TLR4, followed by endosomal trafficking of the
complex and initiation of IRF3 dependent type I interferon production as well as NF-kB dependent pro-inflammatory
cytokine production. Towards understanding the molecular mechanisms that regulate TLR7 functionality, we found that
TRAM murine macrophages exhibited a transcriptional and translational impairment in TLR7 mediated RANTES, but not
TNF, production. Suppression of TRAM expression in human macrophages also resulted in an impairment in TLR7
mediated CCLS and IFN-B, but not TNFx, gene induction. Furthermore, suppression of endogenous human TRAM
expression in human macrophages significantly impaired RV16 induced CCLS and IFNẞ, but not TNFx gene induction.
Additionally, TRAM-G2A dose-dependently inhibited TLR7 mediated activation of CCLS, IFNẞ and IFN reporter genes. TLR7-
mediated phosphorylation and nuclear translocation of IRF3 was impaired in TRAM cells. Finally, co-immunoprecip
itation studies indicated that TRAM physically interacts with MyD88 upon TLR7 stimulation, but not under basal conditions.
Our results clearly demonstrate that TRAM plays a, hitherto unappreciated, role in TLR7 signaling through a novel signaling
axis containing, but not limited to, MyD88, TRAM and IRF3 towards the activation of anti-viral immunity.
CHAT GPT 4th October 2024
Prompt: Write a 200 word abstract of the Shevlin and Miggin TRAM RANTES 2014
study
In their 2014 study, Shevlin and Miggin examine the regulation of RANTES (Regulated
upon Activation, Normal T Cell Expressed and Secreted), a chemokine that plays a pivotal
role in immune cell recruitment during inflammation. Specifically, the research explores
how TLR (Toll-like receptor) signaling influences RANTES expression in response to
various inflammatory stimuli. The authors utilize cellular models to investigate the
activation of key transcription factors, particularly NF-κB and IRF3, which drive RANTES
transcription following TLR activation. The study further elucidates how specific signaling
molecules, such as MAP kinases and other upstream kinases, modulate this pathway
through phosphorylation events that impact the expression levels of RANTES.
Their findings reveal that RANTES production is finely tuned by multiple regulatory
mechanisms that respond to different stress signals, underscoring the complexity of the
inflammatory response. By employing selective inhibitors, Shevlin and Miggin identify
potential targets for reducing excessive RANTES production, suggesting a pathway for
therapeutic intervention in inflammatory and autoimmune diseases where chemokine
overexpression contributes to disease pathology. This study enhances the understanding
of chemokine regulation in immune responses and highlights how modulation of the TLR-
RANTES pathway may offer novel strategies for managing chronic inflammatory
conditions.
Transcribed Image Text:The TIR-Domain Containing Adaptor TRAM Is Required for TLR7 Mediated RANTES Production Enda Shevlin, Sinéad M. Miggin' Institute of Immunology, Department of Biology, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland Abstract Toll-like receptor 7 (TLR7) plays a vital role in the immune response to ssRNA viruses such as human rhinovirus (HRV) and Influenza, against which there are currently no treatments or vaccines with long term efficacy available. Clearly, a more comprehensive understanding of the TLR7 signaling axis will contribute to its molecular targeting. TRIF related adaptor molecule (TRAM) plays a vital role in TLR4 signaling by recruiting TRIF to TLR4, followed by endosomal trafficking of the complex and initiation of IRF3 dependent type I interferon production as well as NF-kB dependent pro-inflammatory cytokine production. Towards understanding the molecular mechanisms that regulate TLR7 functionality, we found that TRAM murine macrophages exhibited a transcriptional and translational impairment in TLR7 mediated RANTES, but not TNF, production. Suppression of TRAM expression in human macrophages also resulted in an impairment in TLR7 mediated CCLS and IFN-B, but not TNFx, gene induction. Furthermore, suppression of endogenous human TRAM expression in human macrophages significantly impaired RV16 induced CCLS and IFNẞ, but not TNFx gene induction. Additionally, TRAM-G2A dose-dependently inhibited TLR7 mediated activation of CCLS, IFNẞ and IFN reporter genes. TLR7- mediated phosphorylation and nuclear translocation of IRF3 was impaired in TRAM cells. Finally, co-immunoprecip itation studies indicated that TRAM physically interacts with MyD88 upon TLR7 stimulation, but not under basal conditions. Our results clearly demonstrate that TRAM plays a, hitherto unappreciated, role in TLR7 signaling through a novel signaling axis containing, but not limited to, MyD88, TRAM and IRF3 towards the activation of anti-viral immunity. CHAT GPT 4th October 2024 Prompt: Write a 200 word abstract of the Shevlin and Miggin TRAM RANTES 2014 study In their 2014 study, Shevlin and Miggin examine the regulation of RANTES (Regulated upon Activation, Normal T Cell Expressed and Secreted), a chemokine that plays a pivotal role in immune cell recruitment during inflammation. Specifically, the research explores how TLR (Toll-like receptor) signaling influences RANTES expression in response to various inflammatory stimuli. The authors utilize cellular models to investigate the activation of key transcription factors, particularly NF-κB and IRF3, which drive RANTES transcription following TLR activation. The study further elucidates how specific signaling molecules, such as MAP kinases and other upstream kinases, modulate this pathway through phosphorylation events that impact the expression levels of RANTES. Their findings reveal that RANTES production is finely tuned by multiple regulatory mechanisms that respond to different stress signals, underscoring the complexity of the inflammatory response. By employing selective inhibitors, Shevlin and Miggin identify potential targets for reducing excessive RANTES production, suggesting a pathway for therapeutic intervention in inflammatory and autoimmune diseases where chemokine overexpression contributes to disease pathology. This study enhances the understanding of chemokine regulation in immune responses and highlights how modulation of the TLR- RANTES pathway may offer novel strategies for managing chronic inflammatory conditions.
The TIR-Domain Containing Adaptor TRAM Is Required
for TLR7 Mediated RANTES Production
Enda Shevlin, Sinéad M. Miggin'
Institute of Immunology, Department of Biology, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland
Abstract
Toll-like receptor 7 (TLR7) plays a vital role in the immune response to ssRNA viruses such as human rhinovirus (HRV) and
Influenza, against which there are currently no treatments or vaccines with long term efficacy available. Clearly, a more
comprehensive understanding of the TLR7 signaling axis will contribute to its molecular targeting. TRIF related adaptor
molecule (TRAM) plays a vital role in TLR4 signaling by recruiting TRIF to TLR4, followed by endosomal trafficking of the
complex and initiation of IRF3 dependent type I interferon production as well as NF-kB dependent pro-inflammatory
cytokine production. Towards understanding the molecular mechanisms that regulate TLR7 functionality, we found that
TRAM murine macrophages exhibited a transcriptional and translational impairment in TLR7 mediated RANTES, but not
TNF, production. Suppression of TRAM expression in human macrophages also resulted in an impairment in TLR7
mediated CCLS and IFN-B, but not TNFx, gene induction. Furthermore, suppression of endogenous human TRAM
expression in human macrophages significantly impaired RV16 induced CCLS and IFNẞ, but not TNFx gene induction.
Additionally, TRAM-G2A dose-dependently inhibited TLR7 mediated activation of CCLS, IFNẞ and IFN reporter genes. TLR7-
mediated phosphorylation and nuclear translocation of IRF3 was impaired in TRAM cells. Finally, co-immunoprecip
itation studies indicated that TRAM physically interacts with MyD88 upon TLR7 stimulation, but not under basal conditions.
Our results clearly demonstrate that TRAM plays a, hitherto unappreciated, role in TLR7 signaling through a novel signaling
axis containing, but not limited to, MyD88, TRAM and IRF3 towards the activation of anti-viral immunity.
CHAT GPT 4th October 2024
Prompt: Write a 200 word abstract of the Shevlin and Miggin TRAM RANTES 2014
study
In their 2014 study, Shevlin and Miggin examine the regulation of RANTES (Regulated
upon Activation, Normal T Cell Expressed and Secreted), a chemokine that plays a pivotal
role in immune cell recruitment during inflammation. Specifically, the research explores
how TLR (Toll-like receptor) signaling influences RANTES expression in response to
various inflammatory stimuli. The authors utilize cellular models to investigate the
activation of key transcription factors, particularly NF-κB and IRF3, which drive RANTES
transcription following TLR activation. The study further elucidates how specific signaling
molecules, such as MAP kinases and other upstream kinases, modulate this pathway
through phosphorylation events that impact the expression levels of RANTES.
Their findings reveal that RANTES production is finely tuned by multiple regulatory
mechanisms that respond to different stress signals, underscoring the complexity of the
inflammatory response. By employing selective inhibitors, Shevlin and Miggin identify
potential targets for reducing excessive RANTES production, suggesting a pathway for
therapeutic intervention in inflammatory and autoimmune diseases where chemokine
overexpression contributes to disease pathology. This study enhances the understanding
of chemokine regulation in immune responses and highlights how modulation of the TLR-
RANTES pathway may offer novel strategies for managing chronic inflammatory
conditions.
Transcribed Image Text:The TIR-Domain Containing Adaptor TRAM Is Required for TLR7 Mediated RANTES Production Enda Shevlin, Sinéad M. Miggin' Institute of Immunology, Department of Biology, National University of Ireland Maynooth, Maynooth, Co. Kildare, Ireland Abstract Toll-like receptor 7 (TLR7) plays a vital role in the immune response to ssRNA viruses such as human rhinovirus (HRV) and Influenza, against which there are currently no treatments or vaccines with long term efficacy available. Clearly, a more comprehensive understanding of the TLR7 signaling axis will contribute to its molecular targeting. TRIF related adaptor molecule (TRAM) plays a vital role in TLR4 signaling by recruiting TRIF to TLR4, followed by endosomal trafficking of the complex and initiation of IRF3 dependent type I interferon production as well as NF-kB dependent pro-inflammatory cytokine production. Towards understanding the molecular mechanisms that regulate TLR7 functionality, we found that TRAM murine macrophages exhibited a transcriptional and translational impairment in TLR7 mediated RANTES, but not TNF, production. Suppression of TRAM expression in human macrophages also resulted in an impairment in TLR7 mediated CCLS and IFN-B, but not TNFx, gene induction. Furthermore, suppression of endogenous human TRAM expression in human macrophages significantly impaired RV16 induced CCLS and IFNẞ, but not TNFx gene induction. Additionally, TRAM-G2A dose-dependently inhibited TLR7 mediated activation of CCLS, IFNẞ and IFN reporter genes. TLR7- mediated phosphorylation and nuclear translocation of IRF3 was impaired in TRAM cells. Finally, co-immunoprecip itation studies indicated that TRAM physically interacts with MyD88 upon TLR7 stimulation, but not under basal conditions. Our results clearly demonstrate that TRAM plays a, hitherto unappreciated, role in TLR7 signaling through a novel signaling axis containing, but not limited to, MyD88, TRAM and IRF3 towards the activation of anti-viral immunity. CHAT GPT 4th October 2024 Prompt: Write a 200 word abstract of the Shevlin and Miggin TRAM RANTES 2014 study In their 2014 study, Shevlin and Miggin examine the regulation of RANTES (Regulated upon Activation, Normal T Cell Expressed and Secreted), a chemokine that plays a pivotal role in immune cell recruitment during inflammation. Specifically, the research explores how TLR (Toll-like receptor) signaling influences RANTES expression in response to various inflammatory stimuli. The authors utilize cellular models to investigate the activation of key transcription factors, particularly NF-κB and IRF3, which drive RANTES transcription following TLR activation. The study further elucidates how specific signaling molecules, such as MAP kinases and other upstream kinases, modulate this pathway through phosphorylation events that impact the expression levels of RANTES. Their findings reveal that RANTES production is finely tuned by multiple regulatory mechanisms that respond to different stress signals, underscoring the complexity of the inflammatory response. By employing selective inhibitors, Shevlin and Miggin identify potential targets for reducing excessive RANTES production, suggesting a pathway for therapeutic intervention in inflammatory and autoimmune diseases where chemokine overexpression contributes to disease pathology. This study enhances the understanding of chemokine regulation in immune responses and highlights how modulation of the TLR- RANTES pathway may offer novel strategies for managing chronic inflammatory conditions.
Expert Solution
steps

Step by step

Solved in 2 steps

Blurred answer
Similar questions
Recommended textbooks for you
Human Anatomy & Physiology (11th Edition)
Human Anatomy & Physiology (11th Edition)
Biology
ISBN:
9780134580999
Author:
Elaine N. Marieb, Katja N. Hoehn
Publisher:
PEARSON
Biology 2e
Biology 2e
Biology
ISBN:
9781947172517
Author:
Matthew Douglas, Jung Choi, Mary Ann Clark
Publisher:
OpenStax
Anatomy & Physiology
Anatomy & Physiology
Biology
ISBN:
9781259398629
Author:
McKinley, Michael P., O'loughlin, Valerie Dean, Bidle, Theresa Stouter
Publisher:
Mcgraw Hill Education,
Molecular Biology of the Cell (Sixth Edition)
Molecular Biology of the Cell (Sixth Edition)
Biology
ISBN:
9780815344322
Author:
Bruce Alberts, Alexander D. Johnson, Julian Lewis, David Morgan, Martin Raff, Keith Roberts, Peter Walter
Publisher:
W. W. Norton & Company
Laboratory Manual For Human Anatomy & Physiology
Laboratory Manual For Human Anatomy & Physiology
Biology
ISBN:
9781260159363
Author:
Martin, Terry R., Prentice-craver, Cynthia
Publisher:
McGraw-Hill Publishing Co.
Inquiry Into Life (16th Edition)
Inquiry Into Life (16th Edition)
Biology
ISBN:
9781260231700
Author:
Sylvia S. Mader, Michael Windelspecht
Publisher:
McGraw Hill Education