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poster on reactive oxygen species and proinflammatory markers interaction, Summaries of Applied Biology

Jamia HamdardApplied Biology

There is crosstalk between ROS and proinflammatory markers

Typology: Summaries

2017/2018

Available from 07/28/2018

Mukund-Jha
Mukund-Jha 🇮🇳

4.4

(7)

3 documents

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CROSSTALK BETWEEN REACTIVE OXYGEN
SPECIES AND PRO-INFLAMMATORY MARKERS IN
DEVELOPING VARIOUS CHRONIC DISEASES
Mukund Jha
Email id- jhamukund508@gmail.com
Department of Pharmaceutical Chemistry, School of Pharmaceutical Education and Research
Jamia Hamdard, Hamdard Nagar, New Delhi-62
Introduction
Inflammation work as defense and healing process against tissue damage with customary marks as
redness, pain, heat and swelling.
A currently acceptable hypothesis is that the relationship between ROS and pro-inflammatory markers is
directly interactive.
The more ROS produce, the more pro-inflammatory markers produce. Meanwhile, a considerable body of
experimental evidence has shown that ROS activate NFκB, which results in the transcriptional activation
of genes relevant for pro-inflammation.
Reactive oxygen species and pro-inflammatory markers
Diseases associated with ROS and Pro-inflammatory markers
Discussion
Persistent production of ROS and pro-
inflammatory markers is associated with each
other. It is worth to mention that patients with
cancer, atherosclerosis, and arthritis could be
essentially good candidates for novel anti-
inflammatory and antioxidant therapy.
Overproduction of ROS triggers the pro-
inflammatory process through activation of several
regulatory proteins in the tissue. ROS production
level must be reduce to limit various chronic
diseases.
Conclusion
Refrence
Yazan Ranneh . Faisal Ali . Abdah Md Akim . Hasiah Abd.
Hamid . Huzwah Khazaai . Abdulmannan Fadel- review (2017)
on same subject
Signaling activation
NFκB
STAT3
Inflammation-related cancer
Chemokines Prostaglandin(C0X2)
Cytokines Inflammasome
Tumorigenesis
Tissue invasion
DNA mutation
Evasion of apostosis
Atherosclerosis Cancer
ROS
Mitochondria
NADPH oxidase
ROS regulate kinases
,transcription and
cytokines(e.g-COX-2,
IL-6, IL-1, TNF-a) which
are synthesized as result
of NF- κB mediation.
Nuclear factor-kappa B
(NF- κB) has a potent
role in regulating the
pro-inflammatory gene
expression.
Arthritis

Partial preview of the text

Download poster on reactive oxygen species and proinflammatory markers interaction and more Summaries Applied Biology in PDF only on Docsity!

CROSSTALK BETWEEN REACTIVE OXYGEN

SPECIES AND PRO-INFLAMMATORY MARKERS IN

DEVELOPING VARIOUS CHRONIC DISEASES

Mukund Jha

Email id- jhamukund508@gmail.com

Department of Pharmaceutical Chemistry, School of Pharmaceutical Education and Research Jamia Hamdard, Hamdard Nagar, New Delhi-

Introduction

 (^) Inflammation work as defense and healing process against tissue damage with customary marks as redness, pain, heat and swelling.  (^) A currently acceptable hypothesis is that the relationship between ROS and pro-inflammatory markers is directly interactive.  (^) The more ROS produce, the more pro-inflammatory markers produce. Meanwhile, a considerable body of experimental evidence has shown that ROS activate NFκB, which results in the transcriptional activation of genes relevant for pro-inflammation.

Reactive oxygen species and pro-inflammatory markers

Diseases associated with ROS and Pro-inflammatory markers

Discussion

Persistent production of ROS and pro- inflammatory markers is associated with each other. It is worth to mention that patients with cancer, atherosclerosis, and arthritis could be essentially good candidates for novel anti- inflammatory and antioxidant therapy. Overproduction of ROS triggers the pro- inflammatory process through activation of several regulatory proteins in the tissue. ROS production level must be reduce to limit various chronic diseases.

Conclusion

Refrence

Yazan Ranneh. Faisal Ali. Abdah Md Akim. Hasiah Abd. Hamid. Huzwah Khazaai. Abdulmannan Fadel- review (2017) on same subject Signaling activation NFκB STAT Inflammation-related cancer Chemokines Prostaglandin(C0X2) Cytokines Inflammasome Tumorigenesis Tissue invasion DNA mutation Evasion of apostosis Atherosclerosis (^) Cancer ROS Mitochondria NADPH oxidase  (^) ROS regulate kinases ,transcription and cytokines(e.g-COX-2, IL-6, IL-1, TNF-a) which are synthesized as result of NF- κB mediation.  (^) Nuclear factor-kappa B (NF- κB) has a potent role in regulating the pro-inflammatory gene expression. Arthritis