Exercise performance and peripheral vascular insufficiency improve with AMPK activation in high-fat diet-fed mice

Baltgalvis, Kristen A.; White, Kathy; Li, Wei; Claypool, Mark D.; Lang, Wayne; Alcantara, Raniel; Singh, Baljit; Friera, Annabelle M.; McLaughlin, John; Hansen, David V.; McCaughey, Kelly; Nguyen, Hanh; Smith, Ira J.; Godinez, Guillermo; Shaw, Simon J.; Goff, Dane A.; Singh, Rajinder; Markovtsov, Vadim; Sun, Tian‐Qiang; Jenkins, Yonchu; Uy, Gerald; Li, Yingwu; Pan, Alison; Gururaja, Tarikere L.; Lau, David T. W.; Park, Gary; Hitoshi, Yasumichi; Payan, Donald G.; Kinsella, Todd M.

doi:10.1152/ajpheart.00839.2013

Cited by 39 publications

(44 citation statements)

References 74 publications

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“…53 In addition, in an animal model of chronic atherosclerosis that simulated some features of PAD, a pharmacological intervention that improved exercise-induced blood flow also improved the animals' functional status. 54 The impaired vasodilation in patients with PAD is likely a sequela of the obstruction, and improvement in physiological vasodilation with exercise offers a potential therapeutic target. Microcirculatory dysfunction and local skeletal muscle flow can also be assessed by novel noninvasive imaging techniques, including arterial spin-labeling MRI and contrast-enhanced ultrasound.…”

Section: Endothelial and Microcirculatory Dysfunctionmentioning

confidence: 99%

“…The indirect 5′ AMP-activated protein kinase activator R118 has improved exercise performance and vascular insufficiency in high-fat fed mice. 54 Although the overlapping metabolic functions of ERRα and ERRγ suggest potential benefit for patients with PAD, breast cancer association studies suggest that ERRα and ERRγ have differing effects on cancer progression, with high levels of ERRα associated with expression of ErbB2, increased risk of recurrence, and adverse clinical outcomes. 161,162 Thus, careful choices of pharmacological agents will need to be made if mitochondrial biogenesis in patients with PAD will be attempted through ERR modulation.…”

Section: Skeletal Muscle Metabolic Abnormalitiesmentioning

confidence: 99%

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Pathogenesis of the Limb Manifestations and Exercise Limitations in Peripheral Artery Disease

Hiatt¹,

Armstrong²,

Larson³

et al. 2015

Circulation Research

126

115

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P eripheral artery disease (PAD) is initiated by atherogenic mechanisms common to all major vascular territories but encompasses several distinctly important clinical sequelae.1 The global burden of PAD is large and rising, with substantial morbidity and mortality found in high-, middle-, and low-income countries. 2 The atherosclerotic occlusive disease underlying PAD is associated with an exercise limitation in the majority of patients, whereas the classic symptoms of intermittent claudication, ischemic rest pain, and ischemic ulceration are less common manifestations. 3 Patients with PAD are also at increased risk of myocardial infarction, ischemic stroke, heart failure, renovascular hypertension, and vascular death reflecting the systemic atherosclerotic burden. [4][5][6] The epidemiology of Peripheral Artery Disease Compendium© 2015 American Heart Association, Inc. The diagnosis of PAD can be ascertained by simple hemodynamic measurements, in particular, the ankle-brachial index (ABI), a test performed by measuring the systolic blood pressure in each arm and the dorsalis pedis and posterior tibial arteries of each ankle. The highest of the dorsalis pedis or posterior tibial artery pressures is the numerator of the ABI specific to each leg, whereas the highest arm pressure on either side is the denominator. A ratio of <0.90 in either leg is considered hemodynamic evidence of PAD. 16 When imaged, PAD can be characterized as one or more arterial stenoses or occlusions involving the distal aorta, iliac, femoral, popliteal, or tibial arteries. 17The underlying mechanisms responsible for the functional limitations in PAD are hemodynamic in origin, which affects the supply of oxygen and substrates to metabolically active tissue: skeletal muscle in the case of intermittent claudication and skin and subcutaneous tissues in the case of critical leg ischemia. However, additional pathophysiologic mechanisms contribute to the limb manifestations, where a reduction in blood flow alone does not fully account for the exercise limitation. Recent research into the pathophysiology of this exercise limitation has identified several important sequelae resultant from the chronic hemodynamic deficit. These changes affecting the vasculature and skeletal muscle distal to the primary hemodynamic lesions likely contribute to the mechanisms of exercise limitation in PAD. These advances are reviewed here with an additional focus on identifying possible future therapeutic strategies. Symptomatic Manifestations and Exercise Limitations in PADIn the coronary circulation, plaque rupture leading to acute ischemic events is a common clinical presentation; in PAD, progressive atherosclerosis leading to chronic stenosis and occlusion, often in series, in the arteries supplying the lower extremities dominates the symptomatic manifestations.6 Limb SymptomsPatients with PAD may present with a range of limb symptoms. Most patients are either asymptomatic or have atypical limb symptoms during exercise, whereas only a third have typical symptoms of c...

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Section: Endothelial and Microcirculatory Dysfunctionmentioning

confidence: 99%

Section: Skeletal Muscle Metabolic Abnormalitiesmentioning

confidence: 99%

Pathogenesis of the Limb Manifestations and Exercise Limitations in Peripheral Artery Disease

Hiatt¹,

Armstrong²,

Larson³

et al. 2015

Circulation Research

126

115

View full text Add to dashboard Cite

show abstract

“…Therefore, based on the strong preclinical and emerging clinical evidence with this compound there are excellent reasons to pursue more potent and efficacious complex I inhibitors that activate AMPK via this mechanism. Recently, several molecules that fit this description have been described (125, 126) but to date none of them have been tested in preclinical models or even on DRG or TG neurons. One potential reason to favor complex I inhibitors versus other mechanisms of action for regulating AMPK is the emerging evidence for mitochondrial dysfunction in several forms of neuropathic pain (91, 127).…”

Section: Developing Novel Therapeutics For Pain Targeting Ampkmentioning

confidence: 99%

Adenosine Monophosphate-activated Protein Kinase (AMPK) Activators For the Prevention, Treatment and Potential Reversal of Pathological Pain

Price

Das²,

Dussor³

2016

CDT

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Pathological pain is an enormous medical problem that places a significant burden on patients and can result from an injury that has long since healed or be due to an unidentifiable cause. Although treatments exist, they often either lack efficacy or have intolerable side effects. More importantly, they do not reverse the changes in the nervous system mediating pathological pain, and thus symptoms often return when therapies are discontinued. Consequently, novel therapies are urgently needed that have both improved efficacy and disease-modifying properties. Here we highlight an emerging target for novel pain therapies, adenosine monophosphate-activated protein kinase (AMPK). AMPK is capable of regulating a variety of cellular processes including protein translation, activity of other kinases, and mitochondrial metabolism, many of which are thought to contribute to pathological pain. Consistent with these properties, preclinical studies show positive, and in some cases disease-modifying effects of either pharmacological activation or genetic regulation of AMPK in models of nerve injury, chemotherapy-induced peripheral neuropathy (CIPN), postsurgical pain, inflammatory pain, and diabetic neuropathy. Given the AMPK-activating ability of metformin, a widely prescribed and well-tolerated drug, these preclinical studies provide a strong rationale for both retrospective and prospective human pain trials with this drug. They also argue for the development of novel AMPK activators, whether orthosteric, allosteric, or modulators of events upstream of the kinase. Together, this review will present the case for AMPK as a novel therapeutic target for pain and will discuss future challenges in the path toward development of AMPK-based pain therapeutics.

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“…We previously confirmed that PMFs, particularly 5,7-dimethoxyflavone in KPE, improved metabolism in muscle cells by activating AMPK [24]. AMPK is known to play a critical role in the regulation of energy homeostasis and is related to physical fitness, endurance, and fatigue [41][42][43][44][45][46][47][48]. For example, 5-aminoimidazole-4-carboxyamide ribonucleotide (AICAR), an AMPK agonist, was reported to increase running endurance by 44% and decrease body fat in mice following its oral administration for 4 weeks [48].…”

Section: Discussionmentioning

confidence: 89%

Enhancement of physical fitness by black ginger extract rich in polymethoxyflavones: a double-blind randomized crossover trial

Toda¹

2016

Integr Mol Med

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Exercise performance and peripheral vascular insufficiency improve with AMPK activation in high-fat diet-fed mice

Cited by 39 publications

References 74 publications

Pathogenesis of the Limb Manifestations and Exercise Limitations in Peripheral Artery Disease

Pathogenesis of the Limb Manifestations and Exercise Limitations in Peripheral Artery Disease

Adenosine Monophosphate-activated Protein Kinase (AMPK) Activators For the Prevention, Treatment and Potential Reversal of Pathological Pain

Enhancement of physical fitness by black ginger extract rich in polymethoxyflavones: a double-blind randomized crossover trial

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