MnSOD AND AUTOPHAGY IN PREVENTION OF OXIDATIVE MITOCHONDRIAL INJURIES INDUCED BY UVB IN MURINE SKIN

Bakthavatchalu, Vasudevan

01 January 2012

UVB radiation is a known environmental carcinogen that causes DNA damage and increase ROS generation in mitochondria. Accumulating evidence suggests that mtDNA damage and increased ROS generation trigger mitochondrial translocation of p53. Within mitochondria, p53 interacts with nucleoid macromolecular complexes such as mitochondrial antioxidant MnSOD, mitochondrial DNA polymerase Polγ, and mtDNA. Mitochondria are considered to be a potential source for damage-associated molecular patterns (DAMPs) such as mtDNA, cytochrome C, ATP, and formyl peptides. Intracytoplasmic release of DAMPs can trigger inflammasome formation and programmed cell death processes. Autophagic clearance of mitochondria with compromised integrity can inhibit inflammatory and cell death processes. In this study we investigated whether and how MnSOD plays a protective role in UVB-induced mitochondrial damage. The possibility of MnSOD participating in the mtDNA repair process was addressed in vivo using transgenic and pharmacological approaches. The results demonstrate that MnSOD functions as a fidelity protein that maintains the activity of Polγ by preventing UVB-induced nitration and inactivation of Polγ and that MnSOD coordinates with p53 to prevent mtDNA damage. We also investigated whether autophagy is an adaptive response mechanism by which skin cells respond to mitochondrial injury, using mouse keratinocytes (JB6 cells) and C57/BL6 mice as in vitro and in vivo models. The results demonstrate that UVB induces autophagy initiation in murine skin tissues and that down regulation of AKTmTOR levels triggers initiation of autophagy processes. These results suggest that autophagy may play a role in scavenging damaged mitochondria. Taken together, the results from these studies suggest that MnSOD plays a protective role against UVB-induced mitochondria injury beyond its known antioxidant function. Within the mitochondrial matrix, MnSOD acts as an antioxidant and fidelity protein by prevention of UVB-induced nitration of Polγ. The functions of MnSOD may be to enhance mitochondrial membrane integrity and to prevent the genesis of oxidatively damaged mitochondrial components and subsequent intracytoplasmic spillage. Activation of autophagy serves as an additional response that scavenges damaged mitochondria.

MnSOD

Polymerase gamma

Autophagy

UVB

Mitochondria

Medical Toxicology

New mechanisms of regulation of mast cell activation

Endoh, Ikuko, Medical Sciences, Faculty of Medicine, UNSW

January 2008

Mast cells (MCs) play a central role in inflammation by releasing mediators following activation. S100A8 and S100A9 are abundantly expressed in inflammatory sites such as asthmatic lung, sunburnt skin and atherosclerosis where MCs are involved in pathogenesis; roles of S100A8 in MC function are undetermined. The aims of this thesis were to determine effects of S100A8 on MC activation, particularly provoked by IgE and UVB. Initially, effects of UVB on MC activation were investigated as detailed functions were unclear. Cord blood-derived human mast cells (CBMCs) were treated in vitro with varying doses of UVB and production of multiple cytokines and viability investigated. UVB exposure selectively increased levels of IL-8 (CXCL8), and to a less extent IL-1β, but not eight other cytokines tested. New protein synthesis partially contributed and IL-8 production was p38 MAPK-dependent. UVB dose-dependently induced MC apoptosis indicating a potential regulatory mechanism of MC function. The ability of recombinant S100A8, S100A9 or S100A8/9 heterodimer to modulate IgE/antigen (DNP/anti-DNP)-mediated activation of a murine MC line, and of bone marrow-derived (mBM) MC activation was determined. The S100s did not directly induce degranulation or induce IL-6. S100A8 significantly inhibited DNP/anti-DNP-provoked degranulation, and IL-6 and TNF mRNA and protein induction. S100A8 did not alter FcεRIα expression. S100A9 was less effective; and the S100A8/9 complex was also suppressive. S100A8 only weakly suppressed non-specific MC degranulation. Mutation of Cys41 in S100A8 negated its suppressive activity. Because S100A8 scavenges oxidants via this reactive Cys residue, we propose that this may mediate its ability to downmodulate IgE-dependent MC responses. Similar to the thiol scavenger N-acetyl-L-cysteine, S100A8 but not the Ala41 mutant, attenuated DNP/anti-DNP-provoked LAT phosphorylation. However, the disulfide-bonded S100A8 dimer and S100A8 containing a sulfinamide bond between Cys41 and Lys34/35 also reduced MC activation, indicating an additional pathway(s). S100A8 did not suppress antigen/IgE-induced responses of CBMC possibly because these may not truly reflect fullymature human tissue MCs. S100A8 did not alter UVB-induced IL-8 release by CBMCs, or affect apoptosis. Murine S100A8 may have anti-inflammatory properties by regulating MC activation in an activator-specific manner, at least partially by scavenging ROS to suppress intracellular signalling.

ultraviolet light (UVB)

inflammation

mast cells

S100A8

allergic response

New mechanisms of regulation of mast cell activation

Endoh, Ikuko, Medical Sciences, Faculty of Medicine, UNSW

January 2008

Mast cells (MCs) play a central role in inflammation by releasing mediators following activation. S100A8 and S100A9 are abundantly expressed in inflammatory sites such as asthmatic lung, sunburnt skin and atherosclerosis where MCs are involved in pathogenesis; roles of S100A8 in MC function are undetermined. The aims of this thesis were to determine effects of S100A8 on MC activation, particularly provoked by IgE and UVB. Initially, effects of UVB on MC activation were investigated as detailed functions were unclear. Cord blood-derived human mast cells (CBMCs) were treated in vitro with varying doses of UVB and production of multiple cytokines and viability investigated. UVB exposure selectively increased levels of IL-8 (CXCL8), and to a less extent IL-1β, but not eight other cytokines tested. New protein synthesis partially contributed and IL-8 production was p38 MAPK-dependent. UVB dose-dependently induced MC apoptosis indicating a potential regulatory mechanism of MC function. The ability of recombinant S100A8, S100A9 or S100A8/9 heterodimer to modulate IgE/antigen (DNP/anti-DNP)-mediated activation of a murine MC line, and of bone marrow-derived (mBM) MC activation was determined. The S100s did not directly induce degranulation or induce IL-6. S100A8 significantly inhibited DNP/anti-DNP-provoked degranulation, and IL-6 and TNF mRNA and protein induction. S100A8 did not alter FcεRIα expression. S100A9 was less effective; and the S100A8/9 complex was also suppressive. S100A8 only weakly suppressed non-specific MC degranulation. Mutation of Cys41 in S100A8 negated its suppressive activity. Because S100A8 scavenges oxidants via this reactive Cys residue, we propose that this may mediate its ability to downmodulate IgE-dependent MC responses. Similar to the thiol scavenger N-acetyl-L-cysteine, S100A8 but not the Ala41 mutant, attenuated DNP/anti-DNP-provoked LAT phosphorylation. However, the disulfide-bonded S100A8 dimer and S100A8 containing a sulfinamide bond between Cys41 and Lys34/35 also reduced MC activation, indicating an additional pathway(s). S100A8 did not suppress antigen/IgE-induced responses of CBMC possibly because these may not truly reflect fullymature human tissue MCs. S100A8 did not alter UVB-induced IL-8 release by CBMCs, or affect apoptosis. Murine S100A8 may have anti-inflammatory properties by regulating MC activation in an activator-specific manner, at least partially by scavenging ROS to suppress intracellular signalling.

ultraviolet light (UVB)

inflammation

mast cells

S100A8

allergic response

Análisis del efecto de las barreras físicas sobre la radiación UVB eritemática recibida por las personas

Gurrea Ysasi, Gonzalo

20 September 2010

La presente tesis se basa en el estudio del efecto que tienen diferentes barreras físicas sobre la radiación ultravioleta eritemática recibida por las personas. El objetivo de la investigación es evaluar la influencia que tienen 3 tipos de barreras físicas frente a la radiación solar UVB recibida por las personas. Las tres barreras que se analizan son: a) árboles: se analizan dos tipos diferentes de árboles, b) muros verticales: se analiza la influencia de muros de hormigón y metal cuando están situados frente al Sol y son susceptibles, pues, de reflejar la radiación sobre la persona que está frente a ellos, c) ventanillas de un vehículo: se analiza la influencia de la posición de las ventanillas (abiertas o cerradas) en diferentes situaciones del interior de un coche. Para analizar la influencia de estas tres barreras físicas, se ha procedido de la siguiente forma. Se ha dispuesto, por una parte, de un conjunto de dosímetros, que son aparatos de medida que registrán la energía acumulada en un cierto intervalo de tiempo en J/m2, cuya capacidad que va desde 500 a 5500 J/m2. Por otra parte, se ha contado con dos radiómetros que miden la irradiancia UVB en W/m2. La metodología para el estudio del efecto cada barrera física ha consistido en: a) árboles: se han analizado dos tipos diferentes de árbol para así estudiar la influencia que tiene la diferente densidad de la copa de los mismos. Se han colocado los dosímetros a la sombra de los árboles y a pleno Sol. b) muros verticales: se han analizado dos tipos de muro: de hormigón y de chapa metálica. En este caso, se han colocado para cada tipo de muro dos dosímetros; uno en posición horizontal y otro en posisición vertical en dirección al muro. Los muros estaban orientados a Sur. c) ventanillas de un vehículo: en este caso se han colocado un total de 8 dosímetros repartidos en diferentes posiciones. / Gurrea Ysasi, G. (2010). Análisis del efecto de las barreras físicas sobre la radiación UVB eritemática recibida por las personas [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/8538 / Palancia

Irradiancia

Eritemática

Uvb

Radiación

Solar

Influencia

MAQUINAS Y MOTORES TERMICOS

Potential Involvement of Micro vesicle Particles in the Synergistic Effects of Ultraviolet-B Radiation and Platelet -Activating Factor Receptor Agonists on Cytokine Production

Bhadri, Shweta

04 June 2021

No description available.

Pharmacology

Cytokines

ultraviolet B radiation

UVB

intercellular communication

photosensitivity mechanisms

Extracellular vesicles from UVB irradiated keratinocytes contain cyclobutane pyrimidine dimers

Ginugu, Meghana Reddy

07 June 2021

No description available.

Pharmacology

Pharmacy Sciences

Pharmaceuticals

UVB

irradiated keratinocytes

extracellular vesicles

Human keratinocytes utilize the integrated stress response to adapt to environmental stress

Collier, Ann E.

03 May 2017

Indiana University-Purdue University Indianapolis (IUPUI) / Human skin, consisting of the outer epidermis and inner dermis, serves as a barrier that protects the body from an onslaught of environmental stresses. Keratinocytes in the stratified epidermis undergo sequential differentiation that consists of multiple layers of cells differing in structure and function. Therefore, keratinocytes must not only combat environmental stress, but need to undergo massive changes in gene expression and morphology to form a proper barrier. One mode by which cells cope with stress and differentiation is through phosphorylation of the α subunit of eukaryotic initiation factor 2 (eIF2α-P), which causes global inhibition of protein synthesis coincident with preferential translation of select gene transcripts. Translational repression allows stressed cells to conserve energy and prioritize pro-survival processes to alleviate stress damage. Since eIF2α kinases are each activated by distinct types of stress, this pathway is referred to as the Integrated Stress Response (ISR). We sought to identify the roles of the ISR in the keratinocyte response to the stresses associated with differentiation and ultraviolet B (UVB) irradiation. In this thesis, we show that both general and gene-specific translational control in the ISR are activated following differentiation or UVB irradiation of human keratinocytes. ISR deficiency through genetic modifications or pharmacological interventions caused severe divergence from the appropriate keratinocyte response to differentiation or UVB. Differentiation genes were selectively translated by eIF2α-P, and inhibition of the ISR diminished their induction during differentiation. Furthermore, loss of the eIF2α kinase GCN2 (EIF2AK4) adversely affected the ability of keratinocytes to stratify in three dimensional cultures. Our analysis also revealed a non-canonical ISR response following UVB irradiation, in which downstream factors ATF4 (CREB2) and CHOP (DDIT3/GADD153) were poorly expressed due to repressed transcription, despite preferential translation in response to eIF2α-P. The ISR was cytoprotective during UVB and we found that eIF2α-P was required for a UVB induced G1 arrest, cell fate determination, and DNA repair via a mechanism involving translational control of human CDKN1A (p21 protein) transcript variant 4 mRNA. Collectively, this thesis describes novel roles for the ISR in keratinocyte differentiation and response to UVB, emphasizing the utility of targeting translational control in skin disease therapy.

eIF2

GCN2

Integrated Stress Response

Keratinocyte

Skin

UVB

UVB Damage and Photoreactivation in the Two-spotted Spider Mite, Tetranychus urticae / ナミハダニにおけるUVB損傷と光回復効果

Murata, Yasumasa

23 March 2017

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第20422号 / 農博第2207号 / 新制||農||1047(附属図書館) / 学位論文||H29||N5043(農学部図書室) / 京都大学大学院農学研究科地域環境科学専攻 / (主査)教授 天野 洋, 教授 田中 千尋, 准教授 刑部 正博 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

UVB

Photoreactivation

DNA lesion

Environmental stress

Acari

Tetranychidae

610

The effect of resveratrol on ultraviolet light-induced skin cell death

Grady, George

27 April 2013

No description available.

Biochemistry

resveratrol

melanoma

UVB irradiation

PARP

Caspase-8

Alterations in Endogenous Retinoids with Acute UVB Exposure and in the Progression of Cutaneous Squamous Cell Carcinoma

Gressel, Katherine Lynne

11 June 2015

No description available.

Nutrition

Biomedical Research

UVB

cancer

squamous cell carcinoma

retinoids