Your search keyword '"Lasky G"' showing total 4 results

1. [The cosmotron] vacuum system. Part II—pumping system

Author

Kassner, D.A., primary and Lasky, G., additional

Published

1953

2. Restoring polyamine levels by supplementation of spermidine modulates hepatic immune landscape in murine model of NASH.

Author

Szydlowska M, Lasky G, Oldham S, Rivera C, Ford M, Sellman BR, Rhodes CJ, and Cohen TS

Subjects

Humans, Male, Mice, Animals, Spermidine pharmacology, Disease Models, Animal, Polyamines, Diet, High-Fat, Body Weight, Dietary Supplements, Non-alcoholic Fatty Liver Disease metabolism

Abstract

Aims: To determine if changes in polyamines metabolism occur during non-alcoholic steatohepatitis (NASH) in human patients and mice, as well as to assess systemic and liver-specific effects of spermidine administration into mice suffering from advanced NASH., Materials and Methods: Human fecal samples were collected from 50 healthy and 50 NASH patients. For the preclinical studies C57Bl6/N male mice fed GAN or NIH-31 diet for 6 months were ordered from Taconic and liver biopsy was performed. Based on severity of liver fibrosis, body composition and body weight, the mice from both dietary groups were randomized into another two groups: half receiving 3 mM spermidine in drinking water, half normal water for subsequent 12 weeks. Body weight was measured weekly and glucose tolerance and body composition were assessed at the end. Blood and organs were collected during necropsy, and intrahepatic immune cells were isolated for flow cytometry analysis., Results: Metabolomic analysis of human and murine feces confirmed that levels of polyamines decreased along NASH progression. Administration of exogenous spermidine to the mice from both dietary groups did not affect body weight, body composition or adiposity. Moreover, incidence of macroscopic hepatic lesions was higher in NASH mice receiving spermidine. On the other hand, spermidine normalized numbers of Kupffer cells in the livers of mice suffering from NASH, although these beneficial effects did not translate into improved liver steatosis or fibrosis severity., Conclusion: Levels of polyamines decrease during NASH in mice and human patients but spermidine administration does not improve advanced NASH., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: All authors are employees of AstraZeneca LP., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

3. Vitamin D Insufficiency Reduces Grip Strength, Grip Endurance and Increases Frailty in Aged C57Bl/6J Mice.

Author

Seldeen KL, Berman RN, Pang M, Lasky G, Weiss C, MacDonald BA, Thiyagarajan R, Redae Y, and Troen BR

Subjects

Aging physiology, Animals, Body Composition, Dietary Supplements, Disease Models, Animal, Mice, Mice, Inbred C57BL, Nutritional Status, Physical Functional Performance, Vitamin D administration & dosage, Vitamin D analogs & derivatives, Vitamin D blood, Vitamin D Deficiency physiopathology, Frailty etiology, Hand Strength physiology, Physical Endurance physiology, Vitamin D Deficiency complications

Abstract

Low 25-OH serum vitamin D (VitD) is pervasive in older adults and linked to functional decline and progression of frailty. We have previously shown that chronic VitD insufficiency in "middle-aged" mice results in impaired anaerobic exercise capacity, decreased lean mass, and increased adiposity. Here, we examine if VitD insufficiency results in similar deficits and greater frailty progression in old-aged (24 to 28 months of age) mice. Similar to what we report in younger mice, older mice exhibit a rapid and sustained response in serum 25-OH VitD levels to differential supplementation, including insufficient (125 IU/kg chow), sufficient (1000 IU/kg chow), and hypersufficient (8000 IU/kg chow) groups. During the 4-month time course, mice were assessed for body composition (DEXA), physical performance, and frailty using a Fried physical phenotype-based assessment tool. The 125 IU mice exhibited worse grip strength ( p = 0.002) and inverted grip hang time ( p = 0.003) at endpoint and the 8000 IU mice transiently displayed greater rotarod performance after 3 months ( p = 0.012), yet other aspects including treadmill performance and gait speed were unaffected. However, 125 and 1000 IU mice exhibited greater frailty compared to baseline ( p = 0.001 and p = 0.038, respectively), whereas 8000 IU mice did not ( p = 0.341). These data indicate targeting higher serum 25-OH vitamin D levels may attenuate frailty progression during aging.

Published

2020

4. High Intensity Interval Training Improves Physical Performance and Frailty in Aged Mice.

Author

Seldeen KL, Lasky G, Leiker MM, Pang M, Personius KE, and Troen BR

Subjects

Animals, Male, Mice, Absorptiometry, Photon, Body Composition, Exercise Test, Mice, Inbred C57BL, Mitochondria, Muscle, Muscle, Skeletal anatomy & histology, Random Allocation, Frailty, High-Intensity Interval Training, Physical Functional Performance

Abstract

Sarcopenia and frailty are highly prevalent in older individuals, increasing the risk of disability and loss of independence. High intensity interval training (HIIT) may provide a robust intervention for both sarcopenia and frailty by achieving both strength and endurance benefits with lower time commitments than other exercise regimens. To better understand the impacts of HIIT during aging, we compared 24-month-old C57BL/6J sedentary mice with those that were administered 10-minute uphill treadmill HIIT sessions three times per week over 16 weeks. Baseline and end point assessments included body composition, physical performance, and frailty based on criteria from the Fried physical frailty scale. HIIT-trained mice demonstrated dramatic improvement in grip strength (HIIT 10.9% vs -3.9% in sedentary mice), treadmill endurance (32.6% vs -2.0%), and gait speed (107.0% vs 39.0%). Muscles from HIIT mice also exhibited greater mass, larger fiber size, and an increase in mitochondrial biomass. Furthermore, HIIT exercise led to a dramatic reduction in frailty scores in five of six mice that were frail or prefrail at baseline, with four ultimately becoming nonfrail. The uphill treadmill HIIT exercise sessions were well tolerated by aged mice and led to performance gains, improvement in underlying muscle physiology, and reduction in frailty.

Published

2018