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SUIT-020 Fluo mt D033

From Bioblast


high-resolution terminology - matching measurements at high-resolution


SUIT-020 Fluo mt D033

Description

1PM;2D;3G;4S;5Rot;6Omy;7U;8Ama.png

Abbreviation: NS(PGM)

Reference: A:short protocol for simultaneous determination of O2 flux and mitochondrial membrane potential in mitochondrial preparations (isolated mitochondria, permeabilized cells, and tissue homogenate)- SUIT-020

SUIT number: D033_1PM;2D;3G;4S;5Rot;6Omy;7U;8Ama

O2k-Application: Fluo

MitoPedia: SUIT
SUIT-category: NS(PGM)
SUIT protocol pattern: orthogonal 1PM;2D;3G;4S;5Rot;6Omy;7U-

SUIT-020 Fluo mt D033 is a protocol to assess the additivity between N-pathway and S- pathway in the Q-junction as well as investigate the N- and NS-pathway control state in mitochondrial preparations. It can serve as a diagnostic tool for the activity of glutamate dehydrogenase and its linked pathway. Oligomycin (Omy) is used to induce a LEAK state of respiration via the inhibition of the ATP synthase. Since higher concentrations of Omy can decrease the ET state induced upon addition of uncoupler, the required concentration of Omy has to be determined. Addition of PM (Pyruvate & Malate) to the mitochondria leads to the hyperpolarisation of the mt-membrane, while ADP (D) decreases the mt-membrane pontential. Glutamate (G) and Succinate (S) are able to further increase the mt-membrane potential. Rotenone, which is an inhibitor of Complex I, depolarises the mt-membrane. Addition of Omy results in hyperpolarisation owing to the fact that the inhibition of the ATP synthase leads to accumulation of protons in the intermembrane space. Uncoupler depolarises the mt-membrane in a concentration-dependent manner. Complex III inhibitor Antimycin A (Ama) blocks the respiration and dissipates the mt-membrane potential.


Communicated by Huete-Ortega M, Antunes D, Komlodi T and Gnaiger E (last update 2019-07-25) 


MitoPedia: SUIT

Steps and respiratory states

1PM;2D;3G;4S;5Rot;6Omy;7U;8Ama.png

Step State Pathway Q-junction Comment - Events (E) and Marks (M)
1PM PML(n) N CI 1PM
2D PMP N CI 1PM;2D
3G PGMP N CI 1PM;2D;3G
4S PGMSP NS CI&II 1PM;2D;3G;4S
  • Respiratory stimulation by simultaneous action of type N substrates & succinate, with convergent electron flow in the NS-pathway for reconstitution of TCA cycle function.
  • OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
5Rot SP S CII 1PM;2D;3G;4S;5Rot
6Omy SL(Omy) 1PM;2D;3G;4S;5Rot;6Omy
  • Non-phosphorylating resting state (LEAK state); LEAK-respiration, L(Omy), after blocking the ATP synthase with oligomycin.
7U* SE S CII 1PM;2D;3G;4S;5Rot;6Omy;7S
8Ama ROX 1PM;2D;3G;4S;5Rot;6Omy;7S;8Ama
  • Rox is the residual oxygen consumption in the ROX state, due to oxidative side reactions, estimated after addition of antimycin A (inhibitor of CIII). Rox is subtracted from oxygen flux as a baseline for all respiratory states, to obtain mitochondrial respiration (mt).


Questions.jpg


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Strengths and limitations

  • Before performing this protocol, a calibration with the fluoresence dye needs to be done. More information on our USB: Instrumental Protocols/Fluo calibration.
  • It is recommended to run a chemical background without any sample to test the effect of the chemicals on the fluorescence signal. More information on our USB.
  • NS-OXPHOS capacity provides a physiologically relevant estimate of maximum mitochondrial respiratory capacity.
  • Comparison of GM- with PM-capacity yields important information on N-pathway respiratory control upstream of CI.
  • A succinate concentration of >10 mM may be required for saturating SE capacity.
  • Nigericin as a H+/K+ antiporter can be used to dissipate transmembrane pH gradient, which results in increased mt-membrane potential in the LEAK state.
+ You obtain information in a single protocol about the NS-, S and N- pathway control state.
- Many fluorescence dyes (such as Safranin, TMRM etc) can inhibit components of the ET system, most commonly affecting NADH-linked respiration. Therefore, a control run of the protocol should be done in the absence of the fluorescence dye. The following protocol can be used: SUIT-020 O2 mt D032.
- To test the effect of the fluorescence dye on the respiration, in SUIT-020 O2 mt D032 and SUIT-021 O2 mt D035 the dye can be added after cytochrome c.
- CIV activity cannot be determined and Cytochrome c test cannot be performed together with the fluorescence dyes.
- Oligomycin concentration has to be determined. Higher concentrations of Omy may inhibit the ET state.
- Careful washing is required after the experiment to avoid carry-over of the inhibitors and uncoupler.

Compare SUIT protocols

  • SUIT-004;SUIT-004 O2 pfi D010: provides information about the NS(PM) pathway in the ET state without the contribution of G.
  • SUIT-008;SUIT-008 O2 pfi D014 and SUIT-008 O2 ce-pce D025: provides information about the NS(PGM) pathway in the OXPHOS and ET-states, but without the addition of Omy.
  • SUIT-011: provides information about the NS(GM) pathway in the OXPHOS and ET-states, but without the addition of Omy.
  • SUIT-012: provides information about the N(PGM) pathway in the OXPHOS and ET-states without the contribution of S-pathway and without the addition of Omy.
  • SUIT-014: a protocol similar to SUIT-021 O2 mt D035, but with the addition of P in the OXPHOS state before S. Omy is not added in the protocol.

References

 YearReferenceOrganismTissue;cell
MiPNet20.13 Safranin mt-membranepotential2019-06-24
O2k-Protocols
O2k-FluoRespirometry: HRR and simultaneous determination of mt-membrane potential with safranin or TMRM.
MouseNervous system
Krumschnabel 2014 Methods Enzymol2014Krumschnabel G, Eigentler A, Fasching M, Gnaiger E (2014) Use of safranin for the assessment of mitochondrial membrane potential by high-resolution respirometry and fluorometry. https://doi.org/10.1016/B978-0-12-416618-9.00009-1MouseNervous system




MitoPedia concepts: SUIT protocol, SUIT A, Find 


MitoPedia methods: Fluorometry