scholarly journals Oligodendrocytes depend on MCL-1 to prevent spontaneous apoptosis and white matter degeneration

2021 ◽  
Vol 12 (12) ◽  
Author(s):  
Abigail H. Cleveland ◽  
Alejandra Romero-Morales ◽  
Laurent Alfonso Azcona ◽  
Melisa Herrero ◽  
Viktoriya D. Nikolova ◽  
...  
Keyword(s):  
White Matter ◽  
Gray Matter ◽  
Brain Regions ◽  
Spontaneous Apoptosis ◽  
Apoptotic Pathway ◽  
Conditional Deletion ◽  
White Matter Degeneration ◽  
White Matter Pathology ◽  
Cerebellar Gray Matter ◽  
Vanishing White Matter Disease

AbstractNeurologic disorders often disproportionately affect specific brain regions, and different apoptotic mechanisms may contribute to white matter pathology in leukodystrophies or gray matter pathology in poliodystrophies. We previously showed that neural progenitors that generate cerebellar gray matter depend on the anti-apoptotic protein BCL-xL. Conditional deletion of Bcl-xL in these progenitors produces spontaneous apoptosis and cerebellar hypoplasia, while similar conditional deletion of Mcl-1 produces no phenotype. Here we show that, in contrast, postnatal oligodendrocytes depend on MCL-1. We found that brain-wide Mcl-1 deletion caused apoptosis specifically in mature oligodendrocytes while sparing astrocytes and oligodendrocyte precursors, resulting in impaired myelination and progressive white matter degeneration. Disabling apoptosis through co-deletion of Bax or Bak rescued white matter degeneration, implicating the intrinsic apoptotic pathway in Mcl-1-dependence. Bax and Bak co-deletions rescued different aspects of the Mcl-1-deleted phenotype, demonstrating their discrete roles in white matter stability. MCL-1 protein abundance was reduced in eif2b5-mutant mouse model of the leukodystrophy vanishing white matter disease (VWMD), suggesting the potential for MCL-1 deficiency to contribute to clinical neurologic disease. Our data show that oligodendrocytes require MCL-1 to suppress apoptosis, implicate MCL-1 deficiency in white matter pathology, and suggest apoptosis inhibition as a leukodystrophy therapy.

Early metabolic alterations in edematous perihematomal brain regions following experimental intracerebral hemorrhage

1998 ◽  
Vol 88 (6) ◽  
pp. 1058-1065 ◽  
Author(s):  
Kenneth R. Wagner ◽  
Guohua Xi ◽  
Ya Hua ◽  
Marla Kleinholz ◽  
Gabrielle M. de Courten-Myers ◽  
...  
Keyword(s):  
White Matter ◽  
Intracerebral Hemorrhage ◽  
Gray Matter ◽  
High Energy ◽  
Brain Regions ◽  
Large Animal ◽  
High Energy Phosphate ◽  
Content Type ◽  
Water Contents ◽  
Fine Print

Object. The authors previously demonstrated, in a large-animal intracerebral hemorrhage (ICH) model, that markedly edematous (“translucent”) white matter regions (> 10% increases in water contents) containing high levels of clotderived plasma proteins rapidly develop adjacent to hematomas. The goal of the present study was to determine the concentrations of high-energy phosphate, carbohydrate substrate, and lactate in these and other perihematomal white and gray matter regions during the early hours following experimental ICH. Methods. The authors infused autologous blood (1.7 ml) into frontal lobe white matter in a physiologically controlled model in pigs (weighing approximately 7 kg each) and froze their brains in situ at 1, 3, 5, or 8 hours postinfusion. Adenosine triphosphate (ATP), phosphocreatine (PCr), glycogen, glucose, lactate, and water contents were then measured in white and gray matter located ipsi- and contralateral to the hematomas, and metabolite concentrations in edematous brain regions were corrected for dilution. In markedly edematous white matter, glycogen and glucose concentrations increased two- to fivefold compared with control during 8 hours postinfusion. Similarly, PCr levels increased several-fold by 5 hours, whereas, except for a moderate decrease at 1 hour, ATP remained unchanged. Lactate was markedly increased (approximately 20 µmol/g) at all times. In gyral gray matter overlying the hematoma, water contents and glycogen levels were significantly increased at 5 and 8 hours, whereas lactate levels were increased two- to fourfold at all times. Conclusions. These results, which demonstrate normal to increased high-energy phosphate and carbohydrate substrate concentrations in edematous perihematomal regions during the early hours following ICH, are qualitatively similar to findings in other brain injury models in which a reduction in metabolic rate develops. Because an energy deficit is not present, lactate accumulation in edematous white matter is not caused by stimulated anaerobic glycolysis. Instead, because glutamate concentrations in the blood entering the brain's extracellular space during ICH are several-fold higher than normal levels, the authors speculate, on the basis of work reported by Pellerin and Magistretti, that glutamate uptake by astrocytes leads to enhanced aerobic glycolysis and lactate is generated at a rate that exceeds utilization.

IC-P-111: Cerebral hypoperfusion, gray-matter atrophy, and white-matter pathology in incipient Alzheimer's disease

2015 ◽  
Vol 11 (7S_Part_2) ◽  
pp. P76-P77 ◽  
Author(s):  
Miranka Wirth ◽  
Alexa Pichet Binette ◽  
Peter Brunecker ◽  
Theresa Köbe ◽  
Veronica A. Witte ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
White Matter ◽  
Gray Matter ◽  
Cerebral Hypoperfusion ◽  
Gray Matter Atrophy ◽  
White Matter Pathology

scholarly journals Cognitive impairment after focal brain lesions is better predicted by damage to structural than functional network hubs

2021 ◽  
Vol 118 (19) ◽  
pp. e2018784118
Author(s):  
Justin Reber ◽  
Kai Hwang ◽  
Mark Bowren ◽  
Joel Bruss ◽  
Pratik Mukherjee ◽  
...  
Keyword(s):  
Cognitive Impairment ◽  
White Matter ◽  
Brain Damage ◽  
Gray Matter ◽  
Brain Regions ◽  
Brain Lesions ◽  
Cognitive Outcomes ◽  
Human Cognition ◽  
Edge Density ◽  
High Participation

Hubs are highly connected brain regions important for coordinating processing in brain networks. It is unclear, however, which measures of network “hubness” are most useful in identifying brain regions critical to human cognition. We tested how closely two measures of hubness—edge density and participation coefficient, derived from white and gray matter, respectively—were associated with general cognitive impairment after brain damage in two large cohorts of patients with focal brain lesions (N = 402 and 102, respectively) using cognitive tests spanning multiple cognitive domains. Lesions disrupting white matter regions with high edge density were associated with cognitive impairment, whereas lesions damaging gray matter regions with high participation coefficient had a weaker, less consistent association with cognitive outcomes. Similar results were observed with six other gray matter hubness measures. This suggests that damage to densely connected white matter regions is more cognitively impairing than similar damage to gray matter hubs, helping to explain interindividual differences in cognitive outcomes after brain damage.

scholarly journals Frailty Characteristics in Chronic HIV Patients are Markers of White Matter Atrophy Independently of Age and Depressive Symptoms: A Pilot Study

2016 ◽  
Vol 3 (1) ◽  
pp. 138-152 ◽  
Author(s):  
Kalpana J. Kallianpur ◽  
Marissa Sakoda ◽  
Louie Mar A. Gangcuangco ◽  
Lishomwa C. Ndhlovu ◽  
Tracie Umaki ◽  
...  
Keyword(s):  
White Matter ◽  
Grip Strength ◽  
Gray Matter ◽  
Brain Magnetic Resonance Imaging ◽  
Brain Regions ◽  
Hand Grip Strength ◽  
Hiv Patients ◽  
Cerebellar White Matter ◽  
Hand Grip ◽  
Age Related

Background:Chronic HIV disease is associated with neurocognitive impairment and age-related conditions such as frailty.Objective:To determine whether regional brain volumetric changes correlate with frailty parameters in older (≥ 40 years) HIV+ patients on stable combination antiretroviral therapy.Method:Thirty-five HIV-infected participants in the Hawaii Aging with HIV Cohort - Cardiovascular Disease study underwent T1-weighted brain magnetic resonance imaging, frailty assessment and neuropsychological testing. Five physical frailty traits were assessed: low physical activity; exhaustion; unintentional weight loss; weak hand grip strength; slow walking speed. Linear regression quantified cross-sectional relationships of 12 brain regions to walking times and hand grip strength.Results:Participants were 50.6 ± 6.8 years old and 77% had undetectable plasma viral load. One subject was frail (possessing ≥ 3 frailty traits); 23% were pre-frail (1–2 frailty traits) and had worse composite learning and memory z-scores than did non-frail individuals (p=0.06). Pre-frail or frail subjects had reduced hand grip strength relative to the non-frail group (p=0.001). Longer walking times (slower gait) related independently to lower volumes of cerebellar white matter (p<0.001, β=−0.6) and subcortical gray matter (p<0.05, β=−0.30). Reduced thalamus volume was linked to weaker grip strength (p< 0.05, β=0.4). Caudate volume was negatively associated with grip strength (p<0.01, β=−0.5).Conclusion:Volumetric changes in cerebellar white matter and subcortical gray matter, brain regions involved in motor control and cognition, may be connected to frailty development in well-controlled HIV. Gait speed is particularly sensitive to white matter alterations and should be investigated as a predictor of frailty and brain atrophy in chronically infected patients.

scholarly journals Leukodystrophy resembling Vanishing White Matter Disease is recapitulated by brain-specific depletion of apoptosis regulator MCL-1

2020 ◽  
Author(s):  
Abigail H. Cleveland ◽  
Alejandra Romero ◽  
Laurent Alfonso Azcona ◽  
Melisa Herrero ◽  
Viktoriya D. Nikolova ◽  
...  
Keyword(s):  
White Matter ◽  
Mutant Mice ◽  
White Matter Disease ◽  
Protein Abundance ◽  
Intrinsic Apoptotic Pathway ◽  
Apoptotic Pathway ◽  
Vanishing White Matter Disease ◽  
Mri Changes ◽  
Vanishing White Matter ◽  
Specific Deletion

SUMMARYDiverse mutations cause leukodystrophies through unresolved processes. Developing leukodystrophy therapies requires identifying mechanisms that operate downstream of causative mutations to produce white matter degeneration. We have identified the apoptosis regulator MCL-1 as required for white matter stability and depleted by leukodystrophy-causing mutations. Brain-specific deletion of Mcl-1 in mice recapitulates progressive leukodystrophy, with MRI changes, decreased oligodendrocytes, and astrocytic and microglial changes typical of Vanishing White Matter Disease (VWMD). Disabling apoptosis through co-deletion of Bax or Bak rescued white matter Mcl-1-dependence, broadly implicating the intrinsic apoptotic pathway in leukodystrophy pathogenesis. Bax and Bak co-deletions rescued different aspects of the Mcl-1-deleted phenotype, demonstrating their discrete roles in white matter stability. MCL-1 protein abundance was reduced in eif2b5-mutant mice that model VWMD, suggesting a mechanistic relationship between MCL-1 and VWMD. Our data show that oligodendrocytes require MCL-1 to suppress apoptosis, implicate MCL-1 loss in VWMD pathogenesis, and suggest inhibiting apoptosis for leukodystrophy therapy.

scholarly journals Effect of Thyrotropin-Releasing Hormone on Cerebral Blood Flow in Conscious Rat

1989 ◽  
Vol 9 (2) ◽  
pp. 196-203 ◽  
Author(s):  
Yasushi Kondoh ◽  
Shigenori Mizusawa ◽  
Matsutaro Murakami ◽  
Ken Nagata ◽  
Hiroshi Sasaki ◽  
...  
Keyword(s):  
Blood Flow ◽  
Cerebral Blood Flow ◽  
White Matter ◽  
Gray Matter ◽  
Brain Regions ◽  
Thyrotropin Releasing Hormone ◽  
Conscious Rat ◽  
Releasing Hormone ◽  
Conscious Rats ◽  
Prostaglandin Metabolism

The effect of thyrotropin-releasing hormone (TRH) was studied on local CBF (LCBF) in normal conscious rats. LCBF was measured by the autoradiographic [14C]iodoantipyrine method 5 min after TRH (5 mg/kg, i.v.) administration. TRH significantly increased LCBF in 22 of 33 brain regions. This increase of LCBF exceeded 100% of the control values in the cerebral cortices, whereas there was no significant increase in white matter or in some gray matter structures. The increase of CBF following TRH administration was abolished by pretreatment with indomethacin (5 mg/kg, i.v.). The mechanisms underlying the increase of CBF following TRH administration are discussed in relation to prostaglandin metabolism.

Increase of total creatine in human brain after oral supplementation of creatine-monohydrate

1999 ◽  
Vol 277 (3) ◽  
pp. R698-R704 ◽  
Author(s):  
P. Dechent ◽  
P. J. W. Pouwels ◽  
B. Wilken ◽  
F. Hanefeld ◽  
J. Frahm
Keyword(s):  
White Matter ◽  
Human Brain ◽  
Gray Matter ◽  
Regional Analysis ◽  
Creatine Supplementation ◽  
Brain Regions ◽  
Creatine Monohydrate ◽  
Resonance Spectroscopy ◽  
Total Creatine

The effect of oral creatine supplementation on brain metabolite concentrations was investigated in gray matter, white matter, cerebellum, and thalamus of healthy young volunteers by means of quantitative localized proton magnetic resonance spectroscopy in vivo (2.0 T, stimulated echo acquisition mode sequence; repetition time = 6,000 ms, echo time = 20 ms, middle interval = 10 ms, automated spectral evaluation). Oral consumption of 4 × 5 g creatine-monohydrate/day for 4 wk yielded a statistically significant increase (8.7% corresponding to 0.6 mM, P < 0.001) of the mean concentration of total creatine (tCr) when averaged across brain regions and subjects ( n = 6). The data revealed considerable intersubject variability (3.5–13.3%), with the smallest increases observed for the two male volunteers with the largest body weights. A regional analysis resulted in significant increases of tCr in gray matter (4.7%), white matter (11.5%), and cerebellum (5.4%) and was most pronounced in thalamus (14.6% corresponding to 1.0 mM). Other findings were significant decreases of N-acetyl-containing compounds in cerebellum and thalamus as well as of choline-containing compounds in thalamus. All cerebral metabolic alterations caused by oral Cr were reversible, as evidenced by control measurements at least 3 mo after the diet. This work demonstrates that excess consumption of Cr yields regionally dependent increases of the tCr concentration in human brain over periods of several weeks.

scholarly journals Proinflammatory Cytokines and Chemokines are Related to MRI Measures of White and Gray Matter in HIV Infection

2021 ◽  
Author(s):  
Vurayai Ruhanya ◽  
Graeme Brendon Jacobs ◽  
Robert Paul ◽  
John Joska ◽  
Soraya Seedat ◽  
...  
Keyword(s):  
White Matter ◽  
Hiv Infection ◽  
Proinflammatory Cytokines ◽  
Gray Matter ◽  
Neuronal Damage ◽  
Brain Regions ◽  
Partial Least Square ◽  
Least Square ◽  
Partial Least Square Regression ◽  
Brain Volumes

Background: HIV is accompanied by production of proinflammatory cytokines which are regarded as critical in neuronal damage, leading to brain dysfunction, hence the need to identify cytokine biomarkers sensitive to brain damage. Methods: We applied MRI volumetric neuroimaging and high throughput Luminex based immunoassays to examine the relationship between cortical white matter, subcortical gray matter and total gray matter brain volumes and plasma cytokines in HIV indviduals using generalised linear models and Partial least square regression model. Results: Higher plasma inflammatory cytokines CCL5/RANTES and MCP-1 were significantly associated with lower cortical white matter volume. Higher IL-6 was associated with both lower subcortical gray matter and lower total gray matter, whereas higher IL-8 and GM-CSF were associated with lower total gray matter only. Higher VEGF, PDGF-BB and IL-9 were associated with higher cortical white matter volumes. After standardisation and adjusting for clinical and demographic variables, IL-6, IL-8, MCP-1 remained associated with lower volumes of the three brain regions whereas IL-9, VEGF and PDGF-BB were associated with higher volumes. Conclusions: Association proinflammatory cytokines RANTES, MCP-1 and IL-6 with lower brain volumes could imply possible involvement in neurodegerative processes in HIV infection while IL-9, VEGF and PDGF may have a neuroprotective or neurotrophic role.

Seeding-Competent Tau in Gray Matter Versus White Matter of Alzheimer’s Disease Brain

2021 ◽  
Vol 79 (4) ◽  
pp. 1647-1659
Author(s):  
Ruozhen Wu ◽  
Jianlan Gu ◽  
Dingwei Zhou ◽  
Yunn Chyn Tung ◽  
Nana Jin ◽  
...  
Keyword(s):  
Alzheimer’S Disease ◽  
Alzheimer's Disease ◽  
White Matter ◽  
Gray Matter ◽  
Brain Regions ◽  
Hyperphosphorylated Tau ◽  
Tau Hyperphosphorylation ◽  
Brain Extracts ◽  
Axonal Compartment ◽  
Tau Aggregation

Background: Neurofibrillary pathology of abnormally hyperphosphorylated tau spreads along neuroanatomical connections, underlying the progression of Alzheimer’s disease (AD). The propagation of tau pathology to axonally connected brain regions inevitably involves trafficking of seeding-competent tau within the axonal compartment of the neuron. Objective: To determine the seeding activity of tau in cerebral gray and white matters of AD. Methods: Levels of total tau, hyperphosphorylation of tau, and SDS- and β-mercaptoethanol–resistant high molecular weight tau (HMW-tau) in crude extracts from gray and white matters of AD frontal lobes were analyzed by immuno-blots. Tau seeding activity was quantitatively assessed by measuring RIPA buffer–insoluble tau in HEK-293FT/tau151-391 cells treated with brain extracts. Results: We found a comparable level of soluble tau in gray matter versus white matter of control brains, but a higher level of soluble tau in gray matter than white matter of AD brains. In AD brains, tau is hyperphosphorylated in both gray and white matters, with a higher level in the former. The extracts of both gray and white matters of AD brains seeded tau aggregation in HEK-293FT/tau151–391 cells but the white matter showed less potency. Seeding activity of tau in brain extracts was positively correlated with the levels of tau hyperphosphorylation and HMW-tau. RIPA-insoluble tau, but not RIPA-soluble tau, was hyperphosphorylated tau at multiple sites. Conclusion: Both gray and white matters of AD brain contain seeding-competent tau that can template aggregation of hyperphosphorylated tau, but the seeding potency is markedly higher in gray matter than in white matter.

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