Lifespan and mitochondrial control of neurodegeneration

Wright, Alan F.; Jacobson, Samuel G.; Cideciyan, Artur V.; Román, Alejandro J.; Shu, Xinhua; Vlachantoni, Dafni; McInnes, Roderick R.; Riemersma, Rudolph A.

doi:10.1038/ng1448

Cited by 100 publications

(96 citation statements)

References 45 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Control oligo is THF control (Table 2) Tables 1 and 4 FIC analysis in many instances. Nonetheless, this negative correlation is consistent with four related observations from multi-species comparisons: (1) cellular respiration rates (e.g., liver hepatocytes, Porter and Brand 1995) and the corresponding proportion of cell volume occupied by mitochondria (multiple cell types, Else and Hulbert 1985;Porter and Brand 1995) are greater in smaller species; (2) ROS production per mitochondrion (multiple tissues; Sohal et al 1989;Sohal et al 1990;Ku et al 1993;Barja 1998;Wright et al 2004;Lambert et al 2007) is generally greater in smaller, shorter-lived species (Fig. 5a); (3) steady-state levels of nuclear DNA oxidative damage are greater in some tissues of smaller species (see Fig.…”

Section: Discussionsupporting

confidence: 89%

Activities of DNA base excision repair enzymes in liver and brain correlate with body mass, but not lifespan

Page

Stuart

2011

AGE

View full text Add to dashboard Cite

Accumulation of DNA lesions compromises replication and transcription and is thus toxic to cells. DNA repair deficiencies are generally associated with cellular replicative senescence and premature aging syndromes, suggesting that efficient DNA repair is required for normal longevity. It follows that the evolution of increasing lifespan amongst animal species should be associated with enhanced DNA repair capacities. Although UV damage repair has been shown to correlate positively with mammalian species lifespan, we lack similar insight into many other DNA repair pathways, including base excision repair (BER). DNA is continuously exposed to reactive oxygen species produced during aerobic metabolism, resulting in the occurrence of oxidative damage within DNA. Shortpatch BER plays an important role in repairing the resultant oxidative lesions. We therefore tested whether an enhancement of BER enzyme activities has occurred concomitantly with the evolution of increased maximum lifespan (MLSP). We collected brain and liver tissue from 15 vertebrate endotherm species ranging in MLSP over an order of magnitude. We measured apurinic/ apyrimidinic (AP) endonuclease activity, as well as the rates of nucleotide incorporation into an oligonucleotide containing a single nucleotide gap (catalyzed by BER polymerase β) and subsequent ligation of the oligonucleotide. None of these activities correlated positively with species MLSP. Rather, nucleotide incorporation and oligonucleotide ligation activities appeared to be primarily (and negatively) correlated with species body mass.

show abstract

Section: Discussionsupporting

confidence: 89%

Activities of DNA base excision repair enzymes in liver and brain correlate with body mass, but not lifespan

Page

Stuart

2011

AGE

View full text Add to dashboard Cite

show abstract

“…Under the simplifying assumptions of a delayed exponential progression of disease (56) and a relationship between the square of ONL thickness and light sensitivity (57), the rate of ONL thickness change in human RPGR-XLRP can be estimated to fall in the range of −0.03 to −0.05 log 10 /y. Using allometric scaling based on maximum lifespan (26), the human progression estimate corresponds to −0.18 to −0.31 log 10 per canine-equivalent years, which is similar to the rate of −0.33 log 10 /y estimated in the superior retina of XLPRA2 dogs but slower than the −0.45 log 10 /y estimated in the inferior retina. Thus, the current studies were performed to place the treatment injections in the superior retinal locations whenever possible.…”

Section: Discussionsupporting

confidence: 60%

“…The natural course of RPGR-XLRP disease is severe, with males showing loss of night vision in the first decade of life (23). The disease onset in the naturally occurring or Rpgr KO mouse models is very late (23)(24)(25) as it corresponds to 35 human years (26), whereas the disease onset in two naturally occurring canine models of RPGR-XLRP (27)(28)(29) are earlier and correspond better to the human disease time course. Gene augmentation delivered by means of an adeno-associated viral (AAV) vector has been shown to be efficient in both the dog and mouse models (30,31).…”

Section: Significancementioning

confidence: 99%

Successful arrest of photoreceptor and vision loss expands the therapeutic window of retinal gene therapy to later stages of disease

Beltran

Cideciyan

Iwabe

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

Inherited retinal degenerations cause progressive loss of photoreceptor neurons with eventual blindness. Corrective or neuroprotective gene therapies under development could be delivered at a predegeneration stage to prevent the onset of disease, as well as at intermediate-degeneration stages to slow the rate of progression. Most preclinical gene therapy successes to date have been as predegeneration interventions. In many animal models, as well as in human studies, to date, retinal gene therapy administered well after the onset of degeneration was not able to modify the rate of progression even when successfully reversing dysfunction. We evaluated consequences of gene therapy delivered at intermediate stages of disease in a canine model of X-linked retinitis pigmentosa (XLRP) caused by a mutation in the Retinitis Pigmentosa GTPase Regulator (RPGR) gene. Spatiotemporal natural history of disease was defined and therapeutic dose selected based on predegeneration results. Then interventions were timed at earlier and later phases of intermediate-stage disease, and photoreceptor degeneration monitored with noninvasive imaging, electrophysiological function, and visual behavior for more than 2 y. All parameters showed substantial and significant arrest of the progressive time course of disease with treatment, which resulted in long-term improved retinal function and visual behavior compared with control eyes. Histology confirmed that the human RPGR transgene was stably expressed in photoreceptors and associated with improved structural preservation of rods, cones, and ON bipolar cells together with correction of opsin mislocalization. These findings in a clinically relevant large animal model demonstrate the long-term efficacy of RPGR gene augmentation and substantially broaden the therapeutic window for intervention in patients with RPGR-XLRP.

show abstract

“…Emerging evidence suggests that the mitochondrion may function as the primary O 2 'sensor', given its capacity to increase free radical and associated reactive oxygen-nitrogen species formation during hypoxia (Chandel et al, 1998). Although thermodynamically capable of causing structural damage when in excess, these oxidant signals can act as secondary messengers (Wright et al, 2004), which activate O 2 salvage genes through stabilization of the transcription factor hypoxia-inducible factor-1a (Guzy and Schumacker, 2006) in physiologically controlled, although as of yet undefined, amounts.…”

Section: Introductionmentioning

confidence: 99%

Cerebral Formation of Free Radicals during Hypoxia Does Not Cause Structural Damage and is Associated with a Reduction in Mitochondrial PO₂; Evidence of O₂-Sensing in Humans?

Bailey

Taudorf

Berg

et al. 2011

J Cereb Blood Flow Metab

View full text Add to dashboard Cite

Cellular hypoxia triggers a homeostatic increase in mitochondrial free radical signaling. In this study, blood was obtained from the radial artery and jugular venous bulb in 10 men during normoxia and 9 hours hypoxia (12.9% O 2 ). Mitochondrial oxygen tension ( P mit O 2 ) was derived from cerebral blood flow and blood gases. The ascorbate radical (A KÀ ) was detected by electron paramagnetic resonance spectroscopy and neuron-specific enolase (NSE), a biomarker of neuronal injury, by enzyme-linked immunosorbent assay. Hypoxia increased the cerebral output of A KÀ in proportion to the reduction in P mit O 2 , but did not affect NSE exchange. These findings suggest that neuro-oxidative stress may constitute an adaptive response.

show abstract

Lifespan and mitochondrial control of neurodegeneration

Cited by 100 publications

References 45 publications

Activities of DNA base excision repair enzymes in liver and brain correlate with body mass, but not lifespan

Activities of DNA base excision repair enzymes in liver and brain correlate with body mass, but not lifespan

Successful arrest of photoreceptor and vision loss expands the therapeutic window of retinal gene therapy to later stages of disease

Cerebral Formation of Free Radicals during Hypoxia Does Not Cause Structural Damage and is Associated with a Reduction in Mitochondrial PO₂; Evidence of O₂-Sensing in Humans?

Contact Info

Product

Resources

About

Lifespan and mitochondrial control of neurodegeneration

Cited by 100 publications

References 45 publications

Activities of DNA base excision repair enzymes in liver and brain correlate with body mass, but not lifespan

Activities of DNA base excision repair enzymes in liver and brain correlate with body mass, but not lifespan

Successful arrest of photoreceptor and vision loss expands the therapeutic window of retinal gene therapy to later stages of disease

Cerebral Formation of Free Radicals during Hypoxia Does Not Cause Structural Damage and is Associated with a Reduction in Mitochondrial PO2; Evidence of O2-Sensing in Humans?

Contact Info

Product

Resources

About

Cerebral Formation of Free Radicals during Hypoxia Does Not Cause Structural Damage and is Associated with a Reduction in Mitochondrial PO₂; Evidence of O₂-Sensing in Humans?