TY - JOUR
T1 - Isolated Mitochondrial Preparations and In organello Assays
T2 - A Powerful and Relevant Ex vivo Tool for Assessment of Brain (Patho)physiology
AU - Ahmad, Faraz
AU - Ramamorthy, Siva
AU - Areeshi, Mohammed Y.
AU - Ashraf, Ghulam Md
AU - Haque, Shafiul
N1 - Publisher Copyright:
© 2023 Bentham Science Publishers.
PY - 2023
Y1 - 2023
N2 - Mitochondria regulate multiple aspects of neuronal development, physiology, plasticity, and pathology through their regulatory roles in bioenergetic, calcium, redox, and cell survival/death signalling. While several reviews have addressed these different aspects, a comprehensive discussion focussing on the relevance of isolated brain mitochondria and their utilities in neuroscience research has been lacking. This is relevant because the employment of isolated mitochondria rather than their in situ functional evaluation, offers definitive evidence of organelle-specificity, negating the interference from extra mitochondrial cellular factors/signals. This mini-review was designed primarily to explore the commonly employed in organello analytical assays for the assessment of mitochondrial physiology and its dysfunction, with a particular focus on neuroscience research. The authors briefly discuss the methodologies for biochemical isolation of mitochondria, their quality assessment, and cryopres-ervation. Further, the review attempts to accumulate the key biochemical protocols for in organello assessment of a multitude of mitochondrial functions critical for neurophysiology, including assays for bioenergetic activity, calcium and redox homeostasis, and mitochondrial protein translation. The pur-pose of this review is not to examine each and every method or study related to the functional assessment of isolated brain mitochondria, but rather to assemble the commonly used protocols of in orga-nello mitochondrial research in a single publication. The hope is that this review will provide a suitable platform aiding neuroscientists to choose and apply the required protocols and tools to address their particular mechanistic, diagnostic, or therapeutic question dealing within the confines of the research area of mitochondrial patho-physiology in the neuronal perspective.
AB - Mitochondria regulate multiple aspects of neuronal development, physiology, plasticity, and pathology through their regulatory roles in bioenergetic, calcium, redox, and cell survival/death signalling. While several reviews have addressed these different aspects, a comprehensive discussion focussing on the relevance of isolated brain mitochondria and their utilities in neuroscience research has been lacking. This is relevant because the employment of isolated mitochondria rather than their in situ functional evaluation, offers definitive evidence of organelle-specificity, negating the interference from extra mitochondrial cellular factors/signals. This mini-review was designed primarily to explore the commonly employed in organello analytical assays for the assessment of mitochondrial physiology and its dysfunction, with a particular focus on neuroscience research. The authors briefly discuss the methodologies for biochemical isolation of mitochondria, their quality assessment, and cryopres-ervation. Further, the review attempts to accumulate the key biochemical protocols for in organello assessment of a multitude of mitochondrial functions critical for neurophysiology, including assays for bioenergetic activity, calcium and redox homeostasis, and mitochondrial protein translation. The pur-pose of this review is not to examine each and every method or study related to the functional assessment of isolated brain mitochondria, but rather to assemble the commonly used protocols of in orga-nello mitochondrial research in a single publication. The hope is that this review will provide a suitable platform aiding neuroscientists to choose and apply the required protocols and tools to address their particular mechanistic, diagnostic, or therapeutic question dealing within the confines of the research area of mitochondrial patho-physiology in the neuronal perspective.
KW - calcium capacitance
KW - density gradient centrifugation
KW - electron transport chain (ETC)
KW - glutathione (GSH)
KW - Intrasynaptic mitochondria
KW - mitochondrial membrane potential (MMP)
KW - reactive oxygen species (ROS)
KW - Trolox equivalent antioxidant capacity (TEAC)
UR - http://www.scopus.com/inward/record.url?scp=85159737584&partnerID=8YFLogxK
U2 - 10.2174/1570159X21666230303123555
DO - 10.2174/1570159X21666230303123555
M3 - Review article
C2 - 36872352
AN - SCOPUS:85159737584
SN - 1570-159X
VL - 21
SP - 1433
EP - 1449
JO - Current Neuropharmacology
JF - Current Neuropharmacology
IS - 6
ER -