Strategies of neuroprotection in an in vivo model of retinal degeneration induced by mitochondrial dysfunction

Rojas-Martinez, Julio Cesar

16 October 2012

Current approaches to treat neurodegenerative disease provide only mild symptomatic relief but do not modify the natural history of these conditions. A large body of evidence suggests that mitochondrial dysfunction is a key event in the pathophysiology of neurodegeneration. Supporting and improving mitochondrial function has a big potential as a strategy for neuroprotection. The goal of this dissertation was to test whether interventions that target mitochondrial function are effective at preventing neurodegeneration induced by mitochondrial failure in vivo. A rodent model of optic neuropathy induced by the mitochondrial toxin rotenone was used to test the neuroprotective effects of methylene blue (MB) and near-infrared light (NIL), two interventions with mechanisms of action localized to mitochondria. This work also tested the effects of memantine, an NMDA receptor blocker, to further characterize the relationship between excitotoxicity and mitochondrial dysfunction. Neuroprotective effects were evaluated via behavioral testing of visual function and histopathological analysis of the retina. The neurochemical effects of MB, NIL and memantine were analyzed in vitro and in vivo with indicators of oxidative stress, cell respiration and catalytic activity of respiratory enzymes, including NADH dehydrogenase and cytochrome oxidase. MB, a diaminophenothiazine with potent antioxidant and unique redox properties, prevented the changes in visual function and the retinal histopathology induced by rotenone. In vitro, MB increased oxygen consumption and prevented the increases in oxidative stress in brain tissue induced by rotenone. NIL prevented the behavioral impairment and the decrease in retinal and visual pathway metabolic activity, retinal nerve fiber layer thickness and ganglion cell layer cell density induced by rotenone in a dose-dependent manner. Whole-brain cytochrome oxidase and superoxide dismutase activities were also increased in NIL-treated subjects in a dose-dependent manner, suggesting an in vivo transcranial effect of NIL. Finally, uncompetitive NMDA receptor blockade with memantine displayed neuroprotection against rotenone-induced neurodegeneration in a dose-response manner, and this effect was associated with a decrease in retinal oxidative stress and a long-term increase in neuronal energy metabolism capacity. These data constitute a proof-of-principle that interventions that target the mitochondria and support the function of the respiratory chain are effective at preventing neurodegeneration in vivo. / text

Mitochondrial pathology

Methylene blue--Therapeutic use

Infrared spectra--Therapeutic use

Phototherapy

Neuroprotective agents

The role of retino-raphe projection in light therapy for non-seasonal depression

Li, Xiaotao, 李晓涛

January 2014

abstract / Anatomy / Doctoral / Doctor of Philosophy

Depression, Mental - Phototherapy

Retrospektive Analyse klinischer Daten von 358 Patienten mit hereditärer Sphärozytose / Retrospective study of 358 patients with hereditary sphaerocytosis

Kreische, Benjamin

26 September 2011

No description available.

610 Medizin, Gesundheit

Medicine

hereditäre Sphärozytose

osmotischen Resistenz

Austauschtransfusion

Antibiotikaprophylaxe

hämolytischer Krise

Phototherapie

Splenektomie

Hämoglobin

Bilirubin

Icterus praecox und/oder prolonga

hereditary sphaerocytosis

osmotic resistence

exchangetransfusion

antibiotic prophylaxis

haemolytic crise

phototherapy

splenectomy

haemoglobin

bilirubin

icterus praecox and/or prolongatus

44.00

MED 417: Hämatologie

Two-photon chromophore-polymer conjugates grafted onto gold nanoparticles as fluorescent probes for bioimaging and photodynamic therapy applications

Cepraga, Cristina

30 November 2012

Photodynamic therapy (PDT) is an alternative treatment of cancer requiring the use of chromophore molecules (photosensitizers), which can induce cell death after light excitation. Gold nanoparticles (AuNP), exhibiting localized Surface Plasmon Resonance, can enhance the photophysical response of chromophores located in their vicinity, and thus improve their therapeutic action. Moreover, the use of highly localized two-photon chromophores (photosensitizers and fluorophores), capable to undergo a localized excitation by light in the Near InfraRed region, should increase the penetration depth into tissues, thus improve the treatment efficiency (by PDT) and the imaging (by fluorescence microscopy) of cancer tissues.In this work, we describe the elaboration of water-soluble hybrid nano-objects for PDT and fluorescence bioimaging applications, composed of two-photon chromophore-polymer conjugates grafted onto gold nanoparticles. In order to obtain these nano-objects we follow a multistep strategy: i) the synthesis of a well-defined water-soluble chromophore-polymer conjugates; ii) the end-group oriented grafting of chromophore-polymer conjugates onto 20 nm AuNP. The coupling of hydrophobic two-photon chromophores on linear water-soluble copolymer chains (poly(N-acryloylmorpholine-co-N-acryloxysuccinimide)), obtained by controlled/living RAFT polymerization, resulted in well-defined water-soluble chromophore-polymer conjugates, with different polymer lengths (2 000 g.mol-1 < Mn < 37 000 g.mol-1) and architectures (random or block), and a controlled number of chromophores per chain (varying between 1 and 21). Their grafting onto 20 nm AuNP gave water-soluble hybrid nano-objects with high grafting densities (~0.5 chains/nm²). The role of the polymer chain being to tune the distance between chromophores and AuNP surface, we have evidenced the increase in the polymer corona thickness of grafted AuNP (estimated by TEM) with the increasing polymer Mn, corroborating with the corresponding distance-dependent fluorescence properties of those. Finally, the in cellulo biological properties of two-photon chromophore-polymer conjugates, before and after grafting onto AuNP, have been investigated, highlighting their potential for two-photon bioimaging and PDT applications.

[SPI:OTHER] Engineering Sciences/Other

Medical Imaging

Phototherapy

Gold nanoparticle

Photoinduced death

Photodynamic therapy

Two-photon microscopy

RAFT polymerization

Two-photon chromophores

Enhanced fluorescence

The Effect of Light Emitting Diode Phototherapy on the Rate of Orthodontic Tooth Movement - A Clinical Study

Chung, Sean

21 November 2013

Increasing the rate of orthodontic tooth movement (OTM) can reduce risks such as periodontal disease and caries. This study investigated whether light emitting diode (LED) phototherapy could accelerate the rate of OTM. Orthodontic patients with bilaterally symmetric extraction of premolars were recruited. During space closure, LED phototherapy was applied to one side of the dental arch for a specified time and the contralateral side acted as the control. Space closure was measured immediately prior to, during and later in space closure. All 11 patients were compliant with LED application. The results revealed no significant changes in the rate of OTM with LED phototherapy over 3 months of extraction space closure. The findings were contrary to previous findings with laser phototherapy and could be related to the dosage or method of LED phototherapy delivery. Further investigations are needed to determine whether LED phototherapy application can influence the rate of OTM.

orthodontics

tooth movement

phototherapy

light emitting diode

led

rate

clinical

otm

space closure

orthodontic

0567

The Effect of Light Emitting Diode Phototherapy on the Rate of Orthodontic Tooth Movement - A Clinical Study

Chung, Sean

21 November 2013

Increasing the rate of orthodontic tooth movement (OTM) can reduce risks such as periodontal disease and caries. This study investigated whether light emitting diode (LED) phototherapy could accelerate the rate of OTM. Orthodontic patients with bilaterally symmetric extraction of premolars were recruited. During space closure, LED phototherapy was applied to one side of the dental arch for a specified time and the contralateral side acted as the control. Space closure was measured immediately prior to, during and later in space closure. All 11 patients were compliant with LED application. The results revealed no significant changes in the rate of OTM with LED phototherapy over 3 months of extraction space closure. The findings were contrary to previous findings with laser phototherapy and could be related to the dosage or method of LED phototherapy delivery. Further investigations are needed to determine whether LED phototherapy application can influence the rate of OTM.

orthodontics

tooth movement

phototherapy

light emitting diode

led

rate

clinical

otm

space closure

orthodontic

0567

Photosensitizers for photodynamic therapy : uptake into endothelial cells and tissues, and effects on the microvascular structure

Menezes da Silva, Fernando Antonio

January 1994

No description available.

610

Phototherapy; Photochemotherapy

Crystallographic studies of interactions between ligands and DNA oligonucleotides

Pytel, Patrycja Dominika

January 2009

This thesis consists of two major chapters, each with its own introduction, experimental section and discussion. The TG4T/daunomycin and G4/daunomycin complexes described in Chapter One are two out of only five crystallographic quadruplex/ligand structures reported to date. In both structures daunomycin molecules stack onto a terminal G quartet preventing the G4 quadruplex from destacking and unwinding. The number of interacting ligand molecules depends on the quadruplex structure itself. The G4 quadruplex can accommodate four daunomycin molecules within one layer, while the TG4T tetraplex only accommodates three. In both structures daunosamine moieties form hydrogen bonds with the quadruplex but only daunosamine moieties from the TG4T/daunomycin structure make slight incursions into the quadruplex grooves. Both structures are stabilised by π-π interactions, hydrogen bonds, Van der Waals contacts and electrostatic interactions. The daunomycin/TG4T complex is the first ever reported and the only structure where a ligand interacts directly with the quadruplex groove. Chapter Two describes nine crystal structures of Hoechst 33258 analogues with d(CGCAAATTTGCG)2 and d(CGCGAATTCGCG)2 oligonucleotides, and is divided into two sections. Section A includes seven structures with Halogenated Hoechst 33258 analogues that are potential agents in radiotherapy, phototherapy, radioimmunotherapy or photoimmunotherapy, and the structure of the precursor. In all of the examined complexes the ligand binds to the minor groove but not all halogen substituents refine to 100% occupancy. The refined occupancies of the halogen atoms reveal that the degree of carbon-halogen cleavage is highest for ortho and lowest for para substitution. Among meta substituents pointing outside the minor groove, bromine atoms had a higher occupancy than the larger iodines. The position of the halogen atom in the minor groove is influenced by additional substituents on the phenyl ring. In most cases the bulky halogen atom is facing outside of the minor groove. Only in the 3-iodo-5-isopropylHoechst complex is iodine positioned towards the floor of the groove allowing the big isopropyl group to face outside. Section B describes the structure of a carborane-containing ligand (JW-B) bound to the minor groove of d(CGCAAATTTGCG)2. The analysis shows that is possible to position boron-rich moieties close to the cell nucleus, and JW-B may have potential in Boron Neutron Capture Therapy. / Data file restricted at the request of the author, but available by individual request, use the feedback form to request access.

Quadruplex

DNA

X-ray

Structure

Crystal

Daunomycin

Anti-cancer drug

Hoechst 33258

Phototherapy

Dehalogenation

Ligand

Crystallographic studies of interactions between ligands and DNA oligonucleotides

Pytel, Patrycja Dominika

January 2009

This thesis consists of two major chapters, each with its own introduction, experimental section and discussion. The TG4T/daunomycin and G4/daunomycin complexes described in Chapter One are two out of only five crystallographic quadruplex/ligand structures reported to date. In both structures daunomycin molecules stack onto a terminal G quartet preventing the G4 quadruplex from destacking and unwinding. The number of interacting ligand molecules depends on the quadruplex structure itself. The G4 quadruplex can accommodate four daunomycin molecules within one layer, while the TG4T tetraplex only accommodates three. In both structures daunosamine moieties form hydrogen bonds with the quadruplex but only daunosamine moieties from the TG4T/daunomycin structure make slight incursions into the quadruplex grooves. Both structures are stabilised by π-π interactions, hydrogen bonds, Van der Waals contacts and electrostatic interactions. The daunomycin/TG4T complex is the first ever reported and the only structure where a ligand interacts directly with the quadruplex groove. Chapter Two describes nine crystal structures of Hoechst 33258 analogues with d(CGCAAATTTGCG)2 and d(CGCGAATTCGCG)2 oligonucleotides, and is divided into two sections. Section A includes seven structures with Halogenated Hoechst 33258 analogues that are potential agents in radiotherapy, phototherapy, radioimmunotherapy or photoimmunotherapy, and the structure of the precursor. In all of the examined complexes the ligand binds to the minor groove but not all halogen substituents refine to 100% occupancy. The refined occupancies of the halogen atoms reveal that the degree of carbon-halogen cleavage is highest for ortho and lowest for para substitution. Among meta substituents pointing outside the minor groove, bromine atoms had a higher occupancy than the larger iodines. The position of the halogen atom in the minor groove is influenced by additional substituents on the phenyl ring. In most cases the bulky halogen atom is facing outside of the minor groove. Only in the 3-iodo-5-isopropylHoechst complex is iodine positioned towards the floor of the groove allowing the big isopropyl group to face outside. Section B describes the structure of a carborane-containing ligand (JW-B) bound to the minor groove of d(CGCAAATTTGCG)2. The analysis shows that is possible to position boron-rich moieties close to the cell nucleus, and JW-B may have potential in Boron Neutron Capture Therapy. / Data file restricted at the request of the author, but available by individual request, use the feedback form to request access.

Quadruplex

DNA

X-ray

Structure

Crystal

Daunomycin

Anti-cancer drug

Hoechst 33258

Phototherapy

Dehalogenation

Ligand

Crystallographic studies of interactions between ligands and DNA oligonucleotides

Pytel, Patrycja Dominika

January 2009

This thesis consists of two major chapters, each with its own introduction, experimental section and discussion. The TG4T/daunomycin and G4/daunomycin complexes described in Chapter One are two out of only five crystallographic quadruplex/ligand structures reported to date. In both structures daunomycin molecules stack onto a terminal G quartet preventing the G4 quadruplex from destacking and unwinding. The number of interacting ligand molecules depends on the quadruplex structure itself. The G4 quadruplex can accommodate four daunomycin molecules within one layer, while the TG4T tetraplex only accommodates three. In both structures daunosamine moieties form hydrogen bonds with the quadruplex but only daunosamine moieties from the TG4T/daunomycin structure make slight incursions into the quadruplex grooves. Both structures are stabilised by π-π interactions, hydrogen bonds, Van der Waals contacts and electrostatic interactions. The daunomycin/TG4T complex is the first ever reported and the only structure where a ligand interacts directly with the quadruplex groove. Chapter Two describes nine crystal structures of Hoechst 33258 analogues with d(CGCAAATTTGCG)2 and d(CGCGAATTCGCG)2 oligonucleotides, and is divided into two sections. Section A includes seven structures with Halogenated Hoechst 33258 analogues that are potential agents in radiotherapy, phototherapy, radioimmunotherapy or photoimmunotherapy, and the structure of the precursor. In all of the examined complexes the ligand binds to the minor groove but not all halogen substituents refine to 100% occupancy. The refined occupancies of the halogen atoms reveal that the degree of carbon-halogen cleavage is highest for ortho and lowest for para substitution. Among meta substituents pointing outside the minor groove, bromine atoms had a higher occupancy than the larger iodines. The position of the halogen atom in the minor groove is influenced by additional substituents on the phenyl ring. In most cases the bulky halogen atom is facing outside of the minor groove. Only in the 3-iodo-5-isopropylHoechst complex is iodine positioned towards the floor of the groove allowing the big isopropyl group to face outside. Section B describes the structure of a carborane-containing ligand (JW-B) bound to the minor groove of d(CGCAAATTTGCG)2. The analysis shows that is possible to position boron-rich moieties close to the cell nucleus, and JW-B may have potential in Boron Neutron Capture Therapy. / Data file restricted at the request of the author, but available by individual request, use the feedback form to request access.

Quadruplex

DNA

X-ray

Structure

Crystal

Daunomycin

Anti-cancer drug

Hoechst 33258

Phototherapy

Dehalogenation

Ligand