SUIT-036 O2 mt D089: Difference between revisions

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SUIT-036 O2 mt D089

Description

Abbreviation: FAO(Pal) & M kinetics

Reference: A - SUIT-036 - F-pathway and malate anaplerosis

SUIT number: D089_1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp;9U;10Rot;11Ama

O2k-Application: O2

The SUIT-036 O2 mt D089 protocol provides a common reference for comparison of respiratory control of mitochondrial preparations such as isolated mitochondria, tissue homogenates and permeabilized cells (already permeabilized when they are added to the chamber) in a wide variety of species, tissues and cell types. SUIT-036 O2 mt D089 is specially designed to give information on F-pathway with palmitoylcarnitine as a FAO substrate in OXPHOS state avoiding FAO overestimation in the presence of anaplerotic pathways. The careful titration of malate is required to analyze the activity of the mt-isoform of NADP- or NAD(P)-dependent malic enzyme (mtME). Moreover, the pathway control in OXPHOS state (F, F(N), FN, FNS, FNSGp pathways) and in ET state (FNSGp and SGp) can be evaluated by using this SUIT protocol.

Communicated by Grings M, Cecatto C and Cardoso LHD (last update 2023-04-12)

Representative traces

Steps and respiratory states

Step	State	Pathway	Q-junction	Comment - Events (E) and Marks (M)
1D	ROX			1D ADP is added to stimulate the consumption of endogenous fuel-substrates.
2M.1				1D;2M.1 Low concentration of malate, typically 0.1 mM, does not saturate the N-pathway; but saturates the F-pathway.
3Pal	PalM_P	F	FAO	1D;2M.1;3Pal Respiratory stimulation of the FAO-pathway, F, by fatty acid, FA, in the presence of malate, M. Malate is a type N substrate (N), required for the F-pathway. The FA concentration has to be optimized to saturate the F-pathway, without inhibiting or uncoupling respiration.
3c	PalMc_P	F	FAO	1D;2M.1;3Pal;3c Respiratory stimulation of the FAO-pathway, F, by fatty acid, FA, in the presence of malate, M. Malate is a type N substrate (N), required for the F-pathway. The FA concentration has to be optimized to saturate the F-pathway, without inhibiting or uncoupling respiration. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state. Addition of cytochrome c yields a test for integrity of the mtOM (cytochrome c control efficiency). Stimulation by added cytochrome c would indicate an injury of the mtOM and limitation of respiration in the preceding state without added c due to loss of cytochrome c. Typically, cytochrome c is added immediately after the earliest ADP-activation step (OXPHOS capacity P with saturating [ADP]).
4M.2	PalM_P	F(N)	FAO	1D;2M.1;3Pal;3c;4M.2 Respiratory stimulation of the FAO-pathway, F, by fatty acid FA in the presence of malate M. Malate is a type N substrate (N), required for the F-pathway. In the presence of anaplerotic pathways (e.g., mitochondrial malic enzyme, mtME) the F-pathway capacity is overestimated, if there is an added contribution of NADH-linked respiration, F(N) (see SUIT-002). The FA concentration has to be optimized to saturate the FAO-pathway, without inhibiting or uncoupling respiration. Malate kinetics in the presence of saturating [ADP] allows the evaluation of malate anaplerotic pathways. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
4M.5	PalM_P	F(N)	FAO	1D;2M.1;3Pal;3c;4M.2;4M.5 Respiratory stimulation of the FAO-pathway, F, by fatty acid FA in the presence of malate M. Malate is a type N substrate (N), required for the F-pathway. In the presence of anaplerotic pathways (e.g., mitochondrial malic enzyme, mtME) the F-pathway capacity is overestimated, if there is an added contribution of NADH-linked respiration, F(N) (see SUIT-002). The FA concentration has to be optimized to saturate the FAO-pathway, without inhibiting or uncoupling respiration. Malate kinetics in the presence of saturating [ADP] allows the evaluation of malate anaplerotic pathways. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
4M1	PalM_P	F(N)	FAO	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1 Respiratory stimulation of the FAO-pathway, F, by fatty acid FA in the presence of malate M. Malate is a type N substrate (N), required for the F-pathway. In the presence of anaplerotic pathways (e.g., mitochondrial malic enzyme, mtME) the F-pathway capacity is overestimated, if there is an added contribution of NADH-linked respiration, F(N) (see SUIT-002). The FA concentration has to be optimized to saturate the FAO-pathway, without inhibiting or uncoupling respiration. Malate kinetics in the presence of saturating [ADP] allows the evaluation of malate anaplerotic pathways. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
4M2	PalM_P	F(N)	FAO	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2 Respiratory stimulation of the FAO-pathway, F, by fatty acid FA in the presence of malate M. Malate is a type N substrate (N), required for the F-pathway. In the presence of anaplerotic pathways (e.g., mitochondrial malic enzyme, mtME) the F-pathway capacity is overestimated, if there is an added contribution of NADH-linked respiration, F(N) (see SUIT-002). The FA concentration has to be optimized to saturate the FAO-pathway, without inhibiting or uncoupling respiration. Malate kinetics in the presence of saturating [ADP] allows the evaluation of malate anaplerotic pathways. High concentration of malate, typically 2 mM, saturates the N-pathway. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
5P	PalPM_P	FN	FAO&CI	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P Respiratory stimulation by simultaneous action of the F-pathway and N-pathway with convergent electron flow in the FN-pathway for evaluation of an additive or inhibitory effect of F. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
6G	PalPGM_P	FN	FAO&CI	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G Respiratory stimulation by simultaneous action of the F-pathway and N-pathway with convergent electron flow in the FN-pathway for evaluation of an additive or inhibitory effect of F. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
7S10	PalPGMS_P	FNS	FAO&CI&II	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10 Respiratory stimulation by simultaneous action of the F-pathway, N-pathway, and S-pathway, with convergent electron flow in the FNS-pathway for reconstitution of TCA cycle function and additive or inhibitory effect of F. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
7S50	PalPGMS_P	FNS	FAO&CI&II	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50 Respiratory stimulation by simultaneous action of the F-pathway, N-pathway, and S-pathway, with convergent electron flow in the FNS-pathway for reconstitution of TCA cycle function and additive or inhibitory effect of F. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
8Gp	PalPGMSGp_P	FNSGp	FAO&CI&II&GpDH	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp Respiratory stimulation by simultaneous action of fatty acid (F), type N substrates (N), succinate (S), and glycerophosphate with convergent electron flow in the FNSGp-pathway to the Q-junction. OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
9U	PalPGMSGp_E	FNSGp	FAO&CI&II&GpDH	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp;9U Respiratory stimulation by simultaneous action of fatty acid (F), type N substrates (N), succinate (S), and glycerophosphate with convergent electron flow in the FNSGp-pathway to the Q-junction. Uncoupler titration (avoiding inhibition by high uncoupler concentrations) to obtain electron transfer (ET) capacity E (noncoupled ET-state). Test for limitation of OXPHOS capacity P by the phosphorylation system (ANT, ATP synthase, phosphate transporter) relative to ET capacity E in mt-preparations: E-P control efficiency and E-L coupling efficiency. In living cells: E-R control efficiency and E-L coupling efficiency.
10Rot	SGp_E	SGp	CII&GpDH	1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp;9U;10Rot Respiratory stimulation by action of succinate and glycerophosphate, Gp, with convergent electron flow in the SGp-pathway (CII&GpDH-linked pathway to the Q-junction). Noncoupled electron transfer state, ET state, with ET capacity E.
11Ama	ROX			1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp;9U;10Rot;11Ama 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).

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Coupling control

» Coupling control state

» ET capacity

» OXPHOS capacity

» LEAK respiration

Pathway control

» Electron transfer pathway

» Fatty acid oxidation pathway control state, F

» NADH electron transfer-pathway state, N

» Succinate pathway control state, S

» NS-pathway control state, NS

» Glycerophosphate pathway control state, Gp

» Complex IV single step, CIV

» Anaplerotic pathway control state

Main fuel substrates

» Glutamate, G

» Glycerophosphate, Gp

» Malate, M

» Octanoylcarnitine, Oct

» Pyruvate, P

» Succinate, S

Glossary

» List of SUIT states

» SUIT concept

Strengths and limitations

SUIT-036 in combination with SUIT-037 and SUIT-038 provides a basis to study fatty acid oxidation (FAO) in a large variety of species, tissues and cell types. These protocols in combination allow:

1. to assess FAO carefully avoiding overestimation by endogenous substrates or malate anaplerosis.

2. to compare FAO with palmitoylcarnitine or octanoylcarnitine.

3. to analyse malate anaplerosis with malate kinetics

4. to analyse OXPHOS respiration and ET-capacity with various pathways (F, N, S, Gp)

A succinate concentration of >10 mM may be required for saturating S_E capacity.

+ SUIT-036 allows the depletion of endogenous substrates with ADP (1D).

+ The protocol provides information on F-pathway in OXPHOS state. The low concentration of malate used in this protocol, typically 0.1 mM, does not saturate the N-pathway; but saturates the F-pathway.

+ F-pathway (3Pal-2M.1) can be compared to FN-pathway (5P) in OXPHOS state.

+ Pathway control in OXPHOS (F, F(N), FN, FNS, FNSGp pathways) and in ET state (FNSGp and SGp) can be observed.

+ Harmonization with SUIT-001 allows to perform both SUIT protocols in parallel. The cross-linked respiratory states can be statistically used as repeated measurements.

+ Harmonization with many SUIT protocols (up to step 7S).

+ In SUIT-002, the full set of pathways converging into Q (FNSGp) is obtained in OXPHOS and ET states. Therefore, P/E (8Gp/9U) at high ET capacity can be calculated.

+ This protocol can be extended with the Complex IV module.

- S-pathway in ET state is not obtained (it is obtained in SUIT-001).

- Lengthy duration of the experiment.

- We do not generally recommend the addition of already permeabilized cells, but we recommend to perform the permeabilization of the cell plasma membrane in the chambers (see SUIT-002 O2 ce-pce D007).

Compare SUIT protocols

SUIT-037 O2 mt D090:

SUIT-038 O2 mt D091:

SUIT-002 O2 mt D005: Harmonized SUIT protocol for isolated mitochondria, tissue homogenate and permeabilized cells (already permeabilized).

Chemicals and syringes

Step	Chemical(s) and link(s)	Comments
1D	ADP (D)
2M.1	Malate (M)
3Pal	Palmitoylcarnitine (Pal)
3c	Cytochrome c (c)
4M.2	Malate (M)
4M.5	Malate (M)
4M1	Malate (M)
4M2	Malate (M)
5P	Pyruvate (P)
6G	Glutamate (G)
7S10	Succinate (S)
7S50	Succinate (S)
8Gp	Glycerophosphate (Gp)
9U	Carbonyl cyanide m-chlorophenyl hydrazone, CCCP (U)	Can be substituted for other uncoupler
10Rot	Rotenone (Rot)
11Ama	Antimycin A (Ama)

Suggested stock concentrations are shown in the specific DL-Protocol.

References

@@ Line 1: / Line 1: @@
 {{MitoPedia
 |description=[[File:1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp;9U;10Rot;11Ama.png|400px]]
-|abbr=RP2 mt
+|abbr=FAO(Pal) & M kinetics
-|info='''A''' - '''[[SUIT-036]]''' - '''...'''
+|info='''A''' - '''[[SUIT-036]]''' - '''[[Fatty_acid_oxidation_pathway_control_state|F-pathway]] and [[Malic_enzyme|malate anaplerosis]]'''
 |application=O2
 |SUIT number=D089_1D;2M.1;3Pal;3c;4M.2;4M.5;4M1;4M2;5P;6G;7S10;7S50;8Gp;9U;10Rot;11Ama
@@ Line 10: / Line 10: @@
 __TOC__
-  Communicated by [[Doerrier C]] and [[Gnaiger E]] (last update 2019-09-24)
+  Communicated by [[Grings M]], [[Cecatto C]] and [[Cardoso LHD]] (last update 2023-04-12)
 == Representative traces ==
@@ Line 19: / Line 19: @@
 == Strengths and limitations ==
-:::* SUIT-002 in combination with [[SUIT-001]] provides a common reference for comparison of respiratory control in a large variety of species, tissues and cell types. Both SUIT protocols provide a mitochondrial mapping which allows:
+:::* SUIT-036 in combination with [[SUIT-037]] and [[SUIT-038]] provides a basis to study fatty acid oxidation (FAO) in a large variety of species, tissues and cell types. These protocols in combination allow:
-:::: 1. to obtain reference values.
+:::: 1. to assess FAO carefully avoiding overestimation by endogenous substrates or malate anaplerosis.
-:::: 2. to evaluate mitochondrial physiological diversity, generating a mt-database on comparative mitochondrial physiology.
+:::: 2. to compare FAO with palmitoylcarnitine or octanoylcarnitine.
-:::: 3. to screen specific defects.
+:::: 3. to analyse malate anaplerosis with malate kinetics
+:::: 4. to analyse OXPHOS respiration and ET-capacity with various pathways (F, N, S, Gp)
 :::* A succinate concentration of >10 mM may be required for saturating S<sub>''E''</sub> capacity.
 :::+ SUIT-036 allows the depletion of endogenous substrates with ADP (1D).
 :::+ The protocol provides information on F-pathway in OXPHOS state. The low concentration of malate used in this protocol, typically 0.1 mM, does not saturate the N-pathway; but saturates the F-pathway.
-:::+ F-pathway (3Oct-2M.1) can be compared to FN-pathway (5P) in OXPHOS state.
+:::+ F-pathway (3Pal-2M.1) can be compared to FN-pathway (5P) in OXPHOS state.
 :::+ Pathway control in OXPHOS (F, F(N), FN, FNS, FNSGp pathways) and in ET state (FNSGp and SGp) can be observed.
 :::+ Harmonization with [[SUIT-001]] allows to perform both SUIT protocols in parallel. The cross-linked respiratory states can be statistically used as repeated measurements.
@@ Line 36: / Line 37: @@
 :::- S-pathway in ET state is not obtained (it is obtained in [[SUIT-001]]).
 :::- Lengthy duration of the experiment.
-:::- We do not generally recommended the addition of already permeabilized cells, but we recommend to perform the permeabilization of the cell plasma membrane in the chambers (see [[SUIT-002 O2 ce-pce D007]]).
+:::- We do not generally recommend the addition of already permeabilized cells, but we recommend to perform the permeabilization of the cell plasma membrane in the chambers (see [[SUIT-002 O2 ce-pce D007]]).
 == Compare SUIT protocols ==