Gene linked to aging also linked to Alzheimer's

"CAMBRIDGE, Mass. -- MIT biologists report that they have discovered the first link between the amyloid plaques that form in the brains of Alzheimer's patients and a gene previously implicated in the aging process, SIRT1."

Gene linked to aging also linked to Alzheimer's:

Related Tags: SIRT1

Insulin signaling meets mitochondria in metabolism.

"insulin signaling underpins mitochondrial electron transport chain integrity and activity by suppressing FOXO1/HMOX1 and maintaining the NAD(+)/NADH ratio, the mediator of the SIRT1/PGC1alpha pathway for mitochondrial biogenesis and function"

CiteULike: Insulin signaling meets mitochondria in metabolism.:

PGC-1a and Sirtuin 1 (SIRT1) Reside in Mitochondria: POSSIBLE DIRECT FUNCTION IN MITOCHONDRIAL BIOGENESIS

Peroxisome Proliferator-activated Receptor {gamma} Co-activator 1{alpha} (PGC-1{alpha}) and Sirtuin 1 (SIRT1) Reside in Mitochondria: POSSIBLE DIRECT FUNCTION IN MITOCHONDRIAL BIOGENESIS [Bioenergetics]

Nrf2 Regulation of Lipids and Glucose: Modulation of PGC-1a Through Protein

Over the past several months, I have proposed that certain environmental illnesses such as chemical sensitivity may be due to alterations in metabolic homeostasis from inflammatory processes and may include dysfunction of the antioxidant system Nrf2 and levels of PGC-1a, possibly through alterations in methylation or some other condition. Several recent studies provides a clearer picture of how this may occur in different tissues. PGC-1a is an important protein that participates in a number of processes including glucose and lipid regulation. (Kelly) In other blogs, we have explained how altered levels are apparent in the tissues of diabetes and for this reason, changes occur in metabolic function. As for Nrf2, it mitigates the effect of inflammatory cytokines as well as, upregulates proteins used in downstream processes of PGC-1a.

For several years now, it has been known that PGC-1a plays an important role in mitochondrial biogenesis and regulates cellular energy metabolism in the liver and muscle and is activated by SIRT1. SIRT1 is another protein we have discussed at length and is activated by the compound resveratrol in red wine and grape skins. Last year, one study showed that in neurons overexpression of SIRT1 or suppression of a GCN5 aminotransferase activated PGC-1a and increased mitochondrial density. Because, several experts have postulated that environmental illnesses may be due to mitochondrial dysfunction from exposures and endogenous processes, increasing mitochondrial density may reduce cellular impairment and increase neuronal survival and provide a therapeutic target.

It seems that GCN5 has the capacity to interact with the PGC family in general. Kelly et al recently found that GCN5 interacts with PGC-1b to repress its transcription activites associated with the estrogen receptor and NRF-1. As a result, the induction of GLUT4 and MCAD were reduced in skeletal muscle which translates to a blunted response of insulin-mediated glucose transport and increases the likelihood of the role of both PGC-1a and PGC-1b in metabolic disease.

As far as Nrf2 goes, in the liver the enzyme ATP citrate lyase (ACL)"relates energy balance" to GCN5 through the control of acetyl-CoA. In a new study by Kitteringham, the findings provide evidence that Nrf2 negatively regulates ATP citrate and therefore may provide a more influential role in glucose and lipid regulation than previously thought. (Kitteringham)

Notes:
***NO derived from constitutive nNOS plays a crucial role in the activity pattern of mitochondrial enzymes. In particular, the NO-mediated suppression of citrate synthase activity may be attributed to a regulatory function of NO in fatty acid synthesis. Inhibition of mitochondrial respiration by NO appears to be at least partially compensated for by a respective increase in the activity of respiratory chain complexes. (Schild) One could suggest the actions of Nrf2 may assist in the regulation of this function.



Kitteringham, N. R., Abdullah, A., Walsh, J., Randle, L., Jenkins, R. E., Sison, R., Goldring, C. E., Powell, H., Sanderson, C., Williams, S., Higgins, L., Yamamoto, M., Hayes, J., and Park, B. K. (2010). Proteomic analysis of nrf2 deficient transgenic mice reveals cellular defence and lipid metabolism as primary nrf2-dependent pathways in the liver. Journal of proteomics, 73(8):1612-1631.
http://www.citeulike.org/user/HEIRS/article/7329576

Jeninga, E. H., Schoonjans, K., and Auwerx, J. (2010). Reversible acetylation of pgc-1: connecting energy sensors and effectors to guarantee metabolic flexibility. Oncogene, aop(current).
http://www.citeulike.org/user/HEIRS/article/7282171

Wareski, P., Vaarmann, A., Choubey, V., Safiulina, D., Liiv, J., Kuum, M., and Kaasik, A. (2009). Pgc-1alpha and pgc-1beta regulate mitochondrial density in neurons. The Journal of biological chemistry, 284(32):21379-21385.
http://www.citeulike.org/user/HEIRS/article/4965303?show_msg=already_posted

Kelly, T. J., Lerin, C., Haas, W., Gygi, S. P., and Puigserver, P. (2009). Gcn5-mediated transcriptional control of the metabolic coactivator pgc-1beta through lysine acetylation. The Journal of biological chemistry, 284(30):19945-19952.
http://www.citeulike.org/user/HEIRS/article/5199678?show_msg=already_posted

Schild, L., Jaroscakova, I., Lendeckel, U., Wolf, G., and Keilhoff, G. (2006). Neuronal nitric oxide synthase controls enzyme activity pattern of mitochondria and lipid metabolism. FASEB J., 20(1):145-147.
http://www.citeulike.org/user/HEIRS/article/7329782

Interdependence of AMPK and SIRT1 for Metabolic Adaptation to Fasting and Exercise in Skeletal Muscle.

"Here we demonstrate that AMPK acts as the prime initial sensor that translates this information into SIRT1-dependent deacetylation of the transcriptional regulators PGC-1alpha and FOXO1, culminating in the transcriptional modulation of mitochondrial and lipid utilization genes. Deficient AMPK activity compromises SIRT1-dependent responses to exercise and fasting, resulting in impaired PGC-1alpha deacetylation and blunted induction of mitochondrial gene expression."

Interdependence of AMPK and SIRT1 for Metabolic Adaptation to Fasting and Exercise in Skeletal Muscle.

Parkinsons Model Identifies Protein & Mitochondria Metabolic Dysruptions

In Parkinson's disease model, while oxygen consumption is similar to control lines, PD lines demonstrate reduced SIRT1 phosphorylation, lower PGC-1a levels and increased NF-kabbaB activation. Results suggest altered aerobic metabolism and mitochondrial respiration.

Mitochondrial Respiration and Respiration Associated Proteins in Cell Lines Created through Parkinson's Subject Mitochondrial Transfer.: "Raquel Esteves, A., Lu, J., Rodova, M., Onyango, I., Lezi, E., Dubinsky, R., Lyons, K. E., Pahwa, R., Burns, J. M., Cardoso, S. M., and Swerdlow, R. H. (2010). Mitochondrial respiration and respiration associated proteins in cell lines created through parkinson's subject mitochondrial transfer. Journal of neurochemistry."

AMPK-mediated GSK3beta inhibition by SIRT activator contributes to protecting mitochondria against iron-catalyzed oxidative stress

Choi, S. H. H., Kim, Y. W. W., and Kim, S. G. G. (2009). Ampk-mediated gsk3beta inhibition by isoliquiritigenin contributes to protecting mitochondria against iron-catalyzed oxidative stress. Biochemical pharmacology. http://www.citeulike.org/user/HEIRS/article/6436818

Resveratrol, an activator of SIRT1 up-regulates sarcoplasmic calcium ATPase and improves cardiac function in diabetic cardiomyopathy.

Sulaiman, M., Matta, M. J., Sundaresan, N. R., Gupta, M. P., Periasamy, M., and Gupta, M. (2009). Resveratrol, an activator of sirt1 up-regulates sarcoplasmic calcium atpase and improves cardiac function in diabetic cardiomyopathy. American journal of physiology. Heart and circulatory physiology. http://www.citeulike.org/user/HEIRS/article/6407236















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Link between sirtuins and life extension strengthened

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SIRT1 Inhibits Inflammatory Pathways in Macrophages and Modulates Insulin Sensitivity.

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Sirtuins, melatonin and circadian rhythms: building a bridge between aging and cancer

Sirtuins, melatonin and circadian rhythms: building a bridge between aging and cancer: "URL: Sirtuins, melatonin and circadian rhythms: building a bridge between aging and cancer

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Relationship between Sirt1 expression and mitochondrial proteins during conditions of chronic muscle use and disuse

Relationship between Sirt1 expression and mitochondrial proteins during conditions of chronic muscle use and disuse: "URL: Relationship between Sirt1 expression and mitochondrial proteins during conditions of chronic muscle use and disuse

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Central administration of resveratrol improves diet-induced diabetes.

Ramadori, G., Gautron, L., Fujikawa, T., Vianna, C. R., Elmquist, J. K., and Coppari, R. (2009). Central administration of resveratrol improves diet-induced diabetes. Endocrinology. http://www.citeulike.org/user/HEIRS/article/5947822

Inflammatory Proteins and IL-10 in Obesity and Pathogenic Exposure: Implications for Sickness Syndrome and Fatigue!

Background: Sickness syndrome is a response to infection and inflammation and has been associated with production of Il-1b. Fatigue is a common symptom in environmental illness and may be a factor in sickness syndrome and recent studies provide evidence that activation of the Il-1 system may be a factor in causing the fatigue. Other studies demonstrate that Il-10 can modulate the severity of sickness syndrome through its interactions with HO-1 and other proteins such as BDNF.(Richwine) Richwine has also demonstrated that inflammatory processes increase in aged mice compared to adults. Meador has explained that IL-10 is associated with lower levels of inflammatory cytokines including Tnf-a, Il-1 and Il-6 in muscle and non-muscle.  The effects of aging on the expression of Il-10 would suggest alteration in SIRT1 or Nrf2/HO-1 and/or changes in expression of another gene that is effected by the aging process and high-fat diets.

New Research:
Title: Environmental and genetic factors influence the relationship between circulating Il-10 and obesity phenotypes.

Summary: "circulating IL-10 levels were associated not only with obesity status but also with genetic factors and with the exposure to environmental pathogens."

Citation: Bassols, J., Botas, P., Moreno-Navarrete, J. M., Delgado, E., Ortega, F., Ricart, W., and Fernandez-Real, J. M. (2009). Environmental and genetic factors influence the relationship between circulating il-10 and obesity phenotypes. Obesity (Silver Spring, Md.). http://www.citeulike.org/group/7167/article/5898650

Related Posts:

• Chronic Fatigue, Insulin Resistance, Il-10 and Sickness Syndrome
• CFS, Probiotics and Il-10
• Sickness Syndrome, CFS, Fibromyalgia, IL-10 and HO-1

Additional References:
Richwine, A. F., Sparkman, N. L., Dilger, R. N., Buchanan, J. B., and Johnson, R. W. (2009). Cognitive deficits in interleukin-10-deficient mice after peripheral injection of lipopolysaccharide. Brain, behavior, and immunity, 23(6):794-802. http://www.citeulike.org/user/HEIRS/article/4710107
Godbout, J. P., Chen, J., Abraham, J., Richwine, A. F., Berg, B. M., Kelley, K. W., and Johnson, R. W. (2005). Exaggerated neuroinflammation and sickness behavior in aged mice following activation of the peripheral innate immune system. The FASEB Journal, 19. http://www.citeulike.org/user/HEIRS/article/4745254
Meador, B. M., Krzyszton, C. P., Johnson, R. W., and Huey, K. A. (2008). Effects of il-10 and age on il-6, il-1beta, and tnf-alpha responses in mouse skeletal and cardiac muscle to an acute inflammatory insult. Journal of applied physiology (Bethesda, Md. : 1985), 104(4):991-997. http://www.citeulike.org/user/HEIRS/article/5488212

SIRT1, PGC-1a and Exercise

Dumke et al demonstrated that successive bouts of exercise in normal already trained subjects increases expression of cytochrome c, citrate synthase, PGC-1a and SIRT1. This is the first study that shows an increase of SIRT1 with acute and chronic exercise.


Dumke, C. L., Mark Davis, J., Angela Murphy, E., Nieman, D. C., Carmichael, M. D., Quindry, J. C., Travis Triplett, N., Utter, A. C., Gross Gowin, S. J., Henson, D. A., McAnulty, S. R., and McAnulty, L. S. (2009). Successive bouts of cycling stimulates genes associated with mitochondrial biogenesis. European journal of applied physiology. http://www.citeulike.org/user/HEIRS/article/5415657

Mitochondrial Bioenergetics, CFS, Muscle Fatigue, PGC-1a, CAMKII and Nrf2.

Chronic fatigue syndrome is a condition that includes overwhelming fatigue even with rest that lasts for a period of six months or longer. It has been 3 decades since research on the condition began and there is no definitive answer on what causes it. However, they are making research strides and have an idea of at least some things that may contribute to it. SIRT1 activity regulates most of its activity through PGC-1a which an important regulator of metabolic homeotstasis, cellular function and mitochondrial biogenesis. Generally, cells that are lacking in PGC-1a are more insulin resistant and also have less eNOS.

In chronic fatigue syndrome, patients have a slow to fast twitch muscular presentation and altered muscle metabolism. (Pietrangelo) CAMKII is also important in fast-twitch muscle for sustaining contraction during exercise and it has been demonstrated that lower levels of CAMKII which are common in mitochondrial respiratory deficiencies may effect muscle performance. (Tanaka) AMPK is also another important regulator of this pathway through phosporylation of PGC-1a (Jager). AMPK also improves fatty acid metabolism in muscle and that activity is partially dependant on CAMKII (Rose). Again, a decrease in CAMKII would surely lead to changes in muscle metabolism. In this case, poor fatty acid metabolism causes higher fat in the muscle and is associated with insulin resistance and obesity and potentially, diabetes. (Adams) Interestingly, 89% of the muscles around the eyes and certain other areas of the face are fast-twitch muscles which may contribute to certain types of facial pain. Fast twitch muscle have less PGC-1a and as a result mitochondrial content is decreased and muscle activity is “energetically less efficient and expensive”(Schaffer). Cells with higher levels of PGC-1a have a better recovery of mitochondrial function to oxidant stress than those with lower levels of PGC-1a. (Rasbach) This would suggest a down-regulation or inhibition of SIRT1 activity which can be inhibited by many factors including nutrition including excessive calorie intake, Tnf-a or overproduction of H2O2. Many exposures including those to dioxin can increase levels of the pro-inflammatory Tnf-a (Frigo). Overall, cells with negative alterations in PGC-1a have demonstrated metabolic abnormalities, are more sensitive to cold, have more degenerative lesions and when expoxed to H2O2 are more apt to become damaged.

Because Nrf2 regulates NRF1 which is intricately tied and necessary for PGC-1a cellular function, Nrf2 becomes an important part of the pathway of SIRT1 and PGC-1a. Piantadosi describes the process as ”Nrf2 upregulates the mRNA, protein, and activity for HO-1 as well as mRNA and protein for nuclear respiratory factor (NRF)-1. Mechanistically, in cardiomyocytes, endogenous carbon monoxide (CO) generated by HO-1 overexpression stimulates superoxide dismutase-2 upregulation and mitochondrial H2O2 production, which activates Akt/PKB. Akt deactivates glycogen synthase kinase-3 (GSK3b), which permits Nrf2 nuclear translocation and occupancy of 4 antioxidant response elements (AREs) in the NRF-1 promoter.” (Piantadosi) In simple terms, GSK3b can become an on/off switch for Nrf2 and you got to have the promoter nuclear respiratory factor NRF-1 and Nrf2. In terms of mitochondrial function, it seems like the NRF-1/Nrf2 complex would be an important place where future therapies target. One already in existence that provides some of this action is metformin which is used as a diabetes treatment. Exercise may increase levels of PGC-1a but this is inhibited in insulin resistant muscle.(Filippis) Resveratrol and quercetin may improve mitochondrial function.


Notes:
****Nrf2 SNPS can be ethnically-derived which would make people with more (or less) susceptible to oxidative stress and possibly a decrease in mitochondrial biogenesis. (Marzec)
****SNPs or mutations may make Nrf2 less responsive or overly responsive to cell signals.
****Friedrich's Ataxia is a condition caused by an alteration in coding for Nrf2 which leads to poor induction of the antioxidant system. It is not the only form of ataxia. Read more about ataxia here. Other SNPs may cause one to be more sensitive to lung injury. Some of the symptoms may seem similar to those with some symptoms related to chemical sensitivity.

****The Nrf2 regulates a number of proteins including the aryl hydrocarbon which may be an important initiator and factor in multiple chemical sensitivity. The AhR is responsible for mediating the detoxification of PAHs and HAHs in addition to other xenobiotics. It has also been determined it mediates most of the toxicity associated with dioxins.


This is a list of common symptoms associated with CFS:
*cognitive dysfunction, including impaired memory or concentration
*postexertional malaise lasting more than 24 hours (exhaustion and increased symptoms) following physical or mental exercise
*unrefreshing sleep
*joint pain (without redness or swelling)
*persistent muscle pain
*headaches of a new type or severity
*tender cervical or axillary lymph nodes
*sore throat

Other Common Conditions:
*irritable bowel, abdominal pain, nausea, diarrhea or bloating
*chills and night sweats
*brain fog
*chest pain
*shortness of breath
*chronic cough
*visual disturbances (blurring, sensitivity to light, eye pain or dry eyes)
*allergies or sensitivities to foods, alcohol, odors, chemicals, medications or noise
*difficulty maintaining upright position (orthostatic instability, irregular heartbeat, dizziness, balance problems or fainting)
*psychological problems (depression, irritability, mood swings, anxiety, panic attacks)
*jaw pain
*weight loss or gain

Source: CDC

Citations: Original Post Source
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