Difference between revisions of "SUIT-012"

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SUIT-012

Description

Abbreviation: PM+G_OXPHOS

Reference: A: Coupling control (L- P- E) with NADH-linked substrates (PM and PGM)

SUIT protocol pattern: 1PM;2D;2c;3G;4U-

The SUIT-012 protocols specifically focus on assessing the coupling control (L- P- E) with NADH-linked substrates (PM and PGM). Addition of G enables evaluating the contribution of this substrate in NADH-supported OXPHOS respiration, which may be relevant in the presence of glutamate-anaplerotic pathway control state. SUIT-012 can be extended with the CIV assay module.

Communicated by Cardoso LHD, Doerrier C, Huete-Ortega M, Gnaiger E (last update 2019-06-05)

Specific SUIT protocols

SUIT-012 O2 mt D027

SUIT-012 O2 mt D027 for mitochondrial preparations (isolated mitochondria, tissue homogenate and permeabilized cells)

SUIT-012 O2 ce-pce D052

SUIT-012 O2 ce-pce D052 for permeabilized cells

Steps and respiratory states

Step	State	Pathway	Q-junction	Comment - Events (E) and Marks (M)
1PM	PM_L(n)	N	CI	1PM NADH-linked substrates (type N-pathway to Q). Non-phosphorylating resting state (LEAK state); LEAK respiration L(n) in the absence of ADP, ATP, AMP (no adenylates).
2D	PM_P	N	CI	1PM;2D NADH-linked substrates (type N-pathway to Q). OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
2c	PMc_P	N	CI	1PM;2D;2c NADH-linked substrates (type N-pathway to Q). 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]). OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
3G	PGM_P	N	CI	1PM;2D;2c;3G NADH-linked substrates (type N-pathway to Q). OXPHOS capacity P (with saturating [ADP]), active OXPHOS state.
4U	PGM_E	N	CI	1PM;2D;2c;3G;4U NADH-linked substrates (type N-pathway to Q). 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. Noncoupled electron transfer state, ET state, with ET capacity E.
5Ama	ROX			1PM;2D;2c;3G;4U;5Ama 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).

Step	Respiratory state	Pathway control	ET-Complex	Comment
## AsTm	AsTm_E	CIV	CIV
## Azd	CHB

Bioblast links: SUIT protocols - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>>

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

+ This protocol allows to evaluate the function of the TCA cycle without the involvement of the complex II ( S-pathway). It is thus useful to understand the contribution and the activity of the dehydrogenases providing NADH.

+ Mitochondrial outer membrane integrity can be measured with the addition of cytochrome c. Application of the cytochrome c test early in the protocol ensures comparability of all states in case of any effect of cytochrome c.

+ Reasonable duration of the experiment.

+ This protocol can be extended with the Complex IV module, which can prolong the experimental time with ~30 min.

+ GM and PM yield typically identical fluxes in human skeletal muscle fibres. However, PM is the superior alternative to GM: the fraction of the N-pathway is lower and of the S-pathway is higher with GM compared to PM (GMP is inhibited by the CII inhibitor malonic acid to a larger extent than PMP). PM, therefore, yields a more sensitive assay for the diagnosis of injuries in the N-pathway, since an impairment of N-pathway capacity can be compensated partially by activation of the S-pathway. This is an advantage compared to SUIT-011 for diagnosis of N-capacity.

- Careful washing is required after the experiment to avoid carry-over of inhibitors and uncoupler.

Compare SUIT protocols

SUIT-008: 1PM;2D;3G;4S;5U-; longer version that also analyses S-pathway.
SUIT-006: 1X;2D;3Omy;4U-; coupling control protocol with only one combination of substrates (e.g. 1PM;2D;3Omy;4U-).

References

MitoPedia concepts: MiP concept, SUIT protocol, Recommended

MitoPedia methods: Respirometry

@@ Line 1: / Line 1: @@
 {{MitoPedia
-|abbr=N(PGM)
+|abbr=PM+G_OXPHOS
 |description=[[File:1PM;2D;3G;4U-.png|300px]]
-|info='''A: Linear coupling control ([[LEAK-respiration|''L'']]-[[Oxidative phosphorylation| ''P'']]-[[ET-capacity| ''E'']]) with NADH-linked substrates ([[PM pathway control state|PM]])''' [[File:PDF.jpg|100px|link=http://wiki.oroboros.at/images/6/64/SUIT-012.pdf|Bioblast pdf]] »[http://wiki.oroboros.at/index.php/File:SUIT-012.pdf Versions]
+|info='''A: Coupling control ([[LEAK respiration|''L'']]-[[Oxidative phosphorylation| ''P'']]-[[ET capacity| ''E'']]) with NADH-linked substrates ([[PM-pathway control state|PM]] and PGM)'''
 }}
-::: '''[[Categories of SUIT protocols |SUIT-category]]:''' N(PGM)
+::: '''[[SUIT protocol pattern]]:''' 1PM;2D;2c;3G;4U-
-::: '''[[SUIT protocol pattern]]:''' diametral 1PM;2D;2c;3G;4U-
-The SUIT-012 protocols specifically focus on assessing the linear coupling control ([[LEAK-respiration|''L'']]-[[Oxidative phosphorylation| ''P'']]-[[ET-capacity| ''E'']]) with NADH-linked substrates ([[PM pathway control state|PM]]). Addition of [[Glutamate|G]] in NADH-supported [[Oxidative phosphorylation| OXPHO]]S enables evaluating the [[glutamate anaplerotic pathway control state]]. SUIT-012 can be extended with the CIV assay module.
+The SUIT-012 protocols specifically focus on assessing the coupling control ([[LEAK respiration|''L'']]-[[Oxidative phosphorylation| ''P'']]-[[ET capacity| ''E'']]) with NADH-linked substrates ([[PM-pathway control state|PM]] and [[PGM]]). Addition of [[Glutamate|G]] enables evaluating the contribution of this substrate in NADH-supported [[Oxidative phosphorylation| OXPHOS]] respiration, which may be relevant in the presence of [[glutamate-anaplerotic pathway control state]]. SUIT-012 can be extended with the CIV assay module.
 __TOC__
-  Communicated by [[Cardoso LH]], [[Doerrier C]], [[Huete-Ortega M]], [[Iglesias-Gonzalez J]] and [[Gnaiger E]] (last update 2019-01-28)
+  Communicated by [[Cardoso LHD]], [[Doerrier C]], [[Huete-Ortega M]], [[Gnaiger E]] (last update 2019-06-05)
 == Specific SUIT protocols ==
+=== SUIT-012 O2 mt D027 ===
 [[File:1PM;2D;2c;3G;4U;5Ama.png|300px]]
-* [[SUIT-012 O2 mt D027]] for isolated mitochondria
+[[File:D027_O2_traces.png|400px]]
+* [[SUIT-012 O2 mt D027]] for mitochondrial preparations (isolated mitochondria, tissue homogenate and permeabilized cells)
+=== SUIT-012 O2 ce-pce D052 ===
 [[File:ce1;1Dig;1PM;2D;2c;3G;4U;5Ama.png|400px]]
-* [[SUIT-012 O2 pce D###]] for permeabilized cells
+[[File:D052_O2_traces.png|400px]]
+* [[SUIT-012 O2 ce-pce D052]] for permeabilized cells
 {{Template:SUIT-012}}
@@ Line 22: / Line 28: @@
 == Strengths and limitations ==
-:::+ This protocol allows to evaluate the function of the TCA cycle without the involvement of the [[complex II]] (S-pathway). It is thus useful to understand the contribution and the activity of dehydrogenases providing NADH.
+:::+ This protocol allows to evaluate the function of the TCA cycle without the involvement of the [[complex II]] ([[Succinate pathway control state| S-pathway]]). It is thus useful to understand the contribution and the activity of the dehydrogenases providing NADH.
-:::+ Mitochondrial external membrane integrity can be measured with the addition of [[cytochrome c]]. Application of the [[cytochrome c]] test early in the protocol ensures comparability of all states in case of any effect of c.
+:::+ Mitochondrial outer membrane integrity can be measured with the addition of [[cytochrome c]]. Application of the [[cytochrome c]] test early in the protocol ensures comparability of all states in case of any effect of cytochrome ''c''.
 :::+ Reasonable duration of the experiment.
-:::+ Complex IV activity can be measured.
+:::+ This protocol can be extended with the Complex IV module, which can prolong the experimental time with  ~30 min.
-:::+ GM and PM yield typically identical fluxes in human skeletal muscle fibres. However, PM is the superior alternative to GM: the fraction of the N-pathway is lower and of the S-pathway is higher with GM compared to PM (GMP is inhibited by the CII inhibitor malonic acid to a larger extent than PMP). PM, therefore, yields a more sensitive assay for the diagnosis of injuries in the N-pathway, since an impairment of N-pathway capacity can be compensated partially by activation of the S-pathway. This is an advantage compared to [[SUIT-011]] for diagnosis of N-capacity.
+:::+ GM and PM yield typically identical fluxes in human skeletal muscle fibres. However, PM is the superior alternative to GM: the fraction of the [[NADH Electron transfer-pathway state| N-pathway]] is lower and of the [[Succinate pathway control state| S-pathway]] is higher with GM compared to PM (GMP is inhibited by the CII inhibitor malonic acid to a larger extent than PMP). PM, therefore, yields a more sensitive assay for the diagnosis of injuries in the N-pathway, since an impairment of N-pathway capacity can be compensated partially by activation of the S-pathway. This is an advantage compared to [[SUIT-011]] for diagnosis of N-capacity.
 :::- Careful washing is required after the experiment to avoid carry-over of inhibitors and uncoupler.
 == Compare SUIT protocols ==
+::::* [[SUIT-008]]: 1PM;2D;3G;4S;5U-; longer version that also analyses S-pathway.
+::::* [[SUIT-006]]: 1X;2D;3Omy;4U-; coupling control protocol with only one combination of substrates (''e.g.'' 1PM;2D;3Omy;4U-).
 == References ==
 {{#ask:[[Category:Publications]] [[Instrument and method::O2k-Protocol]] [[Additional label::SUIT-012]]
@@ Line 49: / Line 58: @@
 |mitopedia method=Respirometry
 }}
-{{MitoPedia O2k and high-resolution respirometry}}
-{{MitoPedia topics}}