Tetracycline Antibiotics Impair Mitochondrial Function and Its Experimental Use Confounds Research

Chatzispyrou, Iliana A.; Held, Ntsiki M.; Mouchiroud, Laurent; Auwerx, Johan; Houtkooper, Riekelt H.

doi:10.1158/0008-5472.can-15-1626

Cited by 115 publications

(85 citation statements)

References 28 publications

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“…Auwerx and colleagues (Chatzispyrou et al 2015;Moullan et al 2015) demonstrated that doxycycline negatively impacts mitochrondrial function. Doxycycline can also impact the gut microbiota in humans; the direct impact of this on adipose biology is unclear but potentially significant (Angelakis et al 2014).…”

Section: Perspectives Limitations and Future Directionsmentioning

confidence: 99%

Sorting out adipocyte precursors and their role in physiology and disease

2017

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The ability to maintain and expand the pool of adipocytes in adults is integral to the regulation of energy balance, tissue/stem cell homeostasis, and disease pathogenesis. For decades, our knowledge of adipocyte precursors has relied on cellular models. The identity of native adipocyte precursors has remained unclear. Recent studies have identified distinct adipocyte precursor populations that are physiologically regulated and contribute to the development, maintenance, and expansion of adipocyte pools in mice. With new tools available, the properties of adipocyte precursors can now be defined, and the regulation and function of adipose plasticity in development and physiology can be explored.Adipocytes ("fat cells") are critical regulators of several aspects of normal physiology, including energy balance, nutrient homeostasis, and tissue homeostasis (Rosen and Spiegelman 2014). White adipocytes represent the principle site for energy storage in mammals. These cells accumulate excess energy in the form of intracellular triglycerides packaged into large single lipid droplets. White adipocytes are also endocrine cells; adipocytes secrete numerous hormones and cytokines that impact several aspects of physiology, including nutrient homeostasis, inflammation, and reproductive biology (Ouchi et al.

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Section: Perspectives Limitations and Future Directionsmentioning

confidence: 99%

Sorting out adipocyte precursors and their role in physiology and disease

2017

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“…An inhibitive effect of tetracycline on protein translation, which is managed by mitochondrial DNA on mammalian cells, has been reported. This inhibition will trigger the imbalance of mitochondrial protein, which will lead to interference with growth, oxygen consumption and fertility [24,25].…”

Section: Advances In Health Sciences Research Volumementioning

confidence: 99%

In Vitro Chitosan Hydrogel Based Tetracycline Cytotoxicity Test on Fibroblast Viability

Andrew¹,

Ervina²,

Agusnar³

2018

Proceedings of the 11th International Dentistry Scientific Meeting (IDSM 2017)

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Abstract. Tetracycline has been widely used as a periodontal support treatment since it has broad-spectrum bone tissue penetration and it can inhibit native collagen. Chitosan hydrogel-based tetracycline is known to have strong antibacterial effects, but the cytotoxic effects on fibroblast have yet to be studied. The objective of this study is to obtain the in vitro cytotoxicity effect of chitosan hydrogel-based tetracycline on fibroblasts. Chitosan hydrogel-based tetracycline (0.5%, 0.7% and 1%) and chitosan hydrogel without tetracycline is made by dissolving chitosan powder in citric acid. Tetracycline powder is then added to the solution. 3T3 fibroblast cells were cultured in a well microplate containing RPMI-1640 media inside an incubator. The viability assay is conducted using the MTT-assay method and repeated 5 times. The colour degradation is read with a microplate reader. The mean viability of fibroblasts applied with chitosan hydrogel-based tetracycline (0.5%, 0.7% and 1%) and chitosan hydrogel is 86.5%, 85.36%, 80.99% and 90.85%, respectively. The highest mean cell viability in the group of fibroblasts applied with chitosan hydrogel-based tetracycline is in the 0.5% group. This value is not significantly different than the value in the 0.7% group, but it is significantly different than the value in the 1% group. Chitosan hydrogel-based tetracycline shows a low cytotoxic effect on 3T3 fibroblast cells.

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“…The cause of MDF is largely unknown but may involve genetic defects, ROS misbalance, impaired autophagy (mitophagy), alterations of signaling pathways, which regulate mitochondrial functions, retrograde pathway and mitochondrial unfolded protein response, acquired mutations in mtDNA or nDNA‐encoded mitochondrial genes, and inability of cells to overcome the consequences . A recent highlight arises from the detection of MDF in eukaryotic cells upon treatment with antibiotics . It has been demonstrated that even at low concentrations some antibiotics may inhibit mitochondrial functions and lead to detrimental changes on both molecular and physiological levels .…”

Section: Introductionmentioning

confidence: 99%