Clinical Trials Logo

Clinical Trial Summary

Autophagy, which involves the degradation of aged or damaged cellular components, has been shown to extend healthspan and lifespan in multiple organisms, including flies, worms, and mice. Research has also demonstrated that autophagy declines with age in these simpler experimental models. However, human studies are lacking. Our study seeks to determine whether fasting, a robust stimulus of autophagy, upregulates autophagy in humans, and whether autophagy is reduced in healthy older people compared to healthy younger individuals.


Clinical Trial Description

Autophagy is a cellular quality control pathway that degrades aged or damaged organelles and protein aggregates within lysosomes. By doing so, autophagy provides an alternate source of energy for cells to cope with adverse conditions. The level of autophagy determines the degree to which aged cells are able to eliminate damaged organelles and/or toxic aggregates and mount a protective response against stress. At the physiological level, nutrient deprivation or fasting is one of the most robust stimuli for autophagy across diverse experimental systems.1 Our lab has shown important roles for autophagy in lipid/glucose homeostasis and regulation of energy balance. We have found that autophagy degrades cellular lipid stores via a process we described as lipophagy. We have also shown contributions of autophagy to the regulation of feeding as well as its developmental roles in maintenance of muscle and fat mass. In addition to these physiological functions, a number of studies have revealed that mice lacking autophagy in the central nervous system show rapid onset of neurodegeneration and an early death.2,3 These studies support a central role of autophagy in the maintenance of healthspan. It is well-established that autophagy activity declines with age, which has led to the hypothesis that autophagy failure contributes to the metabolic syndrome of aging. In fact, young mice with tissue-specific knockout of the autophagy gene Atg7 display features of aging, including loss of muscle mass (mimicking sarcopenia of aging), fatty liver, decreased adipose lipolysis, de-differentiation of brown fat, and pancreatic β-cell dysfunction.4-6 Conversely, restoration of autophagy via pharmacological or genetic approaches prevents age-associated decline in cell function and improves stress response-thus directly extending healthspan. As a consequence, there is great interest in developing new experimental approaches to prevent age-associated chronic diseases. In fact, caloric restriction (CR) has been shown to stimulate autophagy and extend lifespan and healthspan in multiple experimental models. While these CR studies were carried out in simpler organisms, such as flies, worms, and mice,7-9 similar studies in humans are largely lacking. Since autophagy is activated by starvation, the prevailing hypothesis is that caloric restriction (CR) or more physiological approaches such as intermittent fasting will stimulate autophagy in humans, which in turn will prevent or retard the onset of age-associated chronic diseases. There is limited knowledge if indeed extended periods of fasting will activate autophagy in humans. In addition, we do not know what duration of fasting may be required to stimulate autophagy in humans. Finally, we do not know if, nor by how much, fasting-induced autophagy is reduced in aging humans. Due to the aforementioned gaps in our knowledge regarding autophagy in humans, in this study we will test the ability of extended periods of restriction to food to stimulate autophagy in healthy, young individuals. Further, we will compare the extent to which autophagy is reduced in healthy older subjects, when compared to those observed in young controls. In our study, we will be using samples of adipose tissue, a metabolically active endocrine organ, and peripheral blood cells, which have both been evaluated in prior autophagy studies and can be obtained in a less invasive manner. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04842864
Study type Interventional
Source Montefiore Medical Center
Contact
Status Withdrawn
Phase N/A
Start date November 19, 2021
Completion date February 1, 2023

See also
  Status Clinical Trial Phase
Active, not recruiting NCT03754920 - Prolonged Fasting With Meditation and Mild Physical Exercise N/A
Completed NCT05272332 - Gastric Ultrasound Prior to Extubation
Completed NCT04247464 - Short-term Fasting as an Enhancer of Chemotherapy: Pilot Clinical Study on Colorectal Carcinoma Patients N/A
Completed NCT01067001 - Minocycline HCl Extended Release Tablets 135 mg Oral Bioequivalence Study N/A
Completed NCT00757094 - Safety and Feasibility of Fasting While Receiving Chemotherapy N/A
Completed NCT01506713 - Bioequivalence Study of Clopidogrel Tablets 75 mg of Dr. Reddy's Under Fasting Conditions Phase 1
Completed NCT04514380 - Effect of Drinking Carbohydrate-containing Fluids on Gastric Residual Volume in Elderly Patients
Completed NCT05756868 - The Effect of Time-Restricted Feeding on Anthropometry, Biochemical Parameters, Diet Quality and Eating Behavior N/A
Completed NCT05134207 - The Effect of Oral Carbohydrate Solution on Anxiety and Comfort in Patients Undergoing Hip Arthroplasty N/A
Completed NCT05031598 - Long-term Fasting: Multi-system Adaptations in Humans N/A
Recruiting NCT04501393 - Recommended Clear Fluid Intake Volume at 2 Hours Prior to Esophagogastroduodenoscopy for Adult Patients N/A
Enrolling by invitation NCT04027478 - Can Fasting Decrease the Side Effects of Chemotherapy? N/A
Completed NCT05219136 - Improve the Comfort, Safety and Quality of Upper Endoscopy by a Modified Fasting Protocol N/A
Recruiting NCT04625608 - Effect of Premedicant Oral Paracetamol on Gastric Volume and pH Phase 4
Not yet recruiting NCT02562638 - Pre-Procedural Fasting in Cardiac Intervention N/A
Completed NCT01954836 - Short-Term Fasting During Chemotherapy in Patients With Gynecological Cancer- a Randomized Controlled Cross-over Trial N/A
Completed NCT01949987 - Does Oral Intake Decreases Postoperative Pain Score in Children N/A
Completed NCT01831700 - Bioequivalence Study of Lisinopril and Hydrochlorothiazide Tablets (20+25) mg Under Fasting Conditions Phase 1
Completed NCT01721187 - Satiety Effects on the Neural Valuation of Food N/A
Completed NCT01713647 - Bioequivalence Study of Amlodipine / Losartan/ Hydrochlorothiazide of PHARMALINE, Lebanon Under Fastion Conditions Phase 1