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- high-resolution terminology - matching measurements at high-resolution
Carbonyl cyanide m-chlorophenyl hydrazone
Description
Carbonyl cyanide m-chlorophenyl hydrazone, CCCP (U; C9H5ClN4; FW = 204.62) is a protonophore (H+ ionophore) and is used as a potent chemical uncoupler of oxidative phosphorylation. Like all uncouplers, CCCP concentrations must be titrated carefully to evaluated the optimum concentration for maximum stimulation of mitochondrial respiration, particularly to avoid inhibition of respiration at higher CCCP concentrations.
Abbreviation: CCCP
Reference: Lou 2007 Biochem J, Skulachev 1998 Biochim Biophys Acta
Application in HRR
- CCCP: m-Cl-CCP (Carbonyl cyanide 3-chlorophenylhydrazone; C9H5ClN4O), Sigma-Aldrich: C2759, store at -20 °C, CAS: 555-60-2, M = 204.62 g·mol-1
- Hazard statements: H301, H311, H331, H315, H319, H335; toxic if swallowed, toxic in contact with skin, toxic if inhaled, causes skin irritation, causes serious eye irritation, may cause respiratory irritation
- CCCP: m-Cl-CCP (Carbonyl cyanide 3-chlorophenylhydrazone; C9H5ClN4O), Sigma-Aldrich: C2759, store at -20 °C, CAS: 555-60-2, M = 204.62 g·mol-1
- Solubility: CCCP also can be prepared in DMSO as well as EtOH. Soluble in DMSO (5 mg/mL), ethanol (1 mg/mL), and methanol (10 mg/mL). Insoluble in water.
- Because of better handling at room temperature, we use EtOH in OROBOROS Lab.
- Disadvantage of DMSO: freezing point of +18.55 °C (65.4 °F). When using DMSO as solvent, make sure to bring the stock solution to room temperature before filling the 10 µL syringe, which is important to avoid blocking the needle.
- Ethanol stock solutions may be stored in 5 mL glass vials (instead of freezing 0.2 mL portions in small vials). Use subsamples during experiments to avoid contamination of the storage solution.
- Many labs routinely protect CCCP from light. However, there is no hint on vendor's pages that this is necessary (see Discussion).
- Solubility: CCCP also can be prepared in DMSO as well as EtOH. Soluble in DMSO (5 mg/mL), ethanol (1 mg/mL), and methanol (10 mg/mL). Insoluble in water.
- NOTE: 0.1 mM stock for mt-preparations with high uncoupler sensitivity; 1 mM stock for mt-preparations with low uncoupler sensitivity, living cells in various culture media (e.g., RPMI, DMEM, EGC) and for TIP2k.
- Preparation of 1 mM stock solution (dissolved in Ethanol) for 2-mL O2k-chamber:
- Weigh 1.02 mg of CCCP into a glass vial.
- Dissolve in 5 mL ethanol.
- Divide into 0.2 mL portions in glass vials and store at -20 °C.
- » Oroboros manual titrations MiPNet09.12 Manual titrations of SUIT chemicals
- Titration volume (2-mL O2k-chamber): 1 µL (or 0.5 µL) steps using a 10 µL Hamilton syringe.
- Experimental concentration: 0.5 µM (or 0.25 µM) steps
- Preparation of 0.25 mM stock solution (dissolved in Ethanol) for 0.5-mL O2k-chamber:
- Take 100 µL of 1 mM stock solution.
- Dilute with 300 µL ethanol.
- » Oroboros manual titrations MiPNet09.12 Manual titrations of SUIT chemicals
- Titration volume (0.5-mL O2k-chamber): 1 µL (or 0.5 µL) steps using a 10 µL Hamilton syringe.
- Experimental concentration: 0.5 µM (or 0.25 µM) steps
MiPNet News CCCP 2019-05-02
- CCCP solution is less yellow coloured than FCCP. This may be important when working with fluorometric applications in parallel with high-resolution respirometry. - Cardoso LHD
MiPNet News CCCP 2014-01-15
- CCCP is soluble in ethanol up to 10 mM. Working with CCCP below room temperature is therefore possible. - Heidler J
MiPNet News CCCP 2014-01-10
- The temperature of the CCCP stock solution dissolved in DMSO should be increased to room temperature before filling the titration syringe. When the CCCP stock solution is kept on ice, the needle of the Hamilton titration syringe can be easily blocked, causing problems during titrations which may not be detected immediately. When performing experiments below room temperature, the needle of the Hamilton syringe is regularly blocked during injections into the O2k chamber. To avoid such problems, FCCP should be used instead of CCCP at low experimental temperature, or in laboratories at low room temperature that may prevail during expeditions. - Laner V, Gnaiger E
MiPNet News CCCP 2013-07-11
- We replace FCCP by CCCP in the OROBOROS Mitochondrial Research Laboratory. Up to now, we used and recommended FCCP as an uncoupler in high-resolution respirometry. Recently we compared the uncoupling effect of CCCP and FCCP in our on-going experiments with homogenate preparations of mouse brain and heart. In parallel experiments identical results were obtained on ET capacity and mt-membrane potential. Compared to FCCP, a much higher DNP concentration is required for maximum stimulation of oxygen flux (Steinlechner-Maran 1996 Am J Physiol Cell Physiol). In contrast, the optimum CCCP concentration for maximum oxygen flux was only slightly higher than the optimum FCCP concentration. CCCP is significantly less expensive than FCCP. - Eigentler A, Gnaiger E
- Bioblast alert 2013(02)
MitoPedia topics: Uncoupler
- Bioblast links: Uncoupling - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>>
- Specific
- » Artefacts by single dose uncoupling
- » ATP synthase
- » CCCP
- » Coupling-control protocol
- » DNP
- » Dyscoupled respiration
- » FCCP
- » Is respiration uncoupled - noncoupled - dyscoupled?
- » Noncoupled respiration: Discussion
- » Uncoupler
- » Uncoupled respiration - see » Noncoupled respiration
- » Uncoupling proteins
- » Uncoupling protein 1
- » Uncoupler titrations - Optimum uncoupler concentration
- Specific
- Respiratory states and control ratios
- » Biochemical coupling efficiency
- » Coupling-control state
- » Electron-transfer-pathway state
- » Electron-transfer pathway
- ET capacity
- » E-L coupling efficiency
- » Flux control efficiency
- » Flux control ratio
- » LEAK-control ratio
- » LEAK respiration
- » Noncoupled respiration
- » OXPHOS
- » OXPHOS capacity; » State 3
- » OXPHOS-control ratio, P/E ratio
- » Respiratory acceptor control ratio
- » ROUTINE-control ratio
- » ROUTINE respiration
- » ROUTINE state
- » State 3u
- » State 4
- » Uncoupling-control ratio UCR
- Respiratory states and control ratios
- Gnaiger E et al ― MitoEAGLE Task Group (2020) Mitochondrial physiology. Bioenerg Commun 2020.1. https://doi.org/10.26124/bec:2020-0001.v1
- Gnaiger E (2020) Mitochondrial pathways and respiratory control. An introduction to OXPHOS analysis. 5th ed. Bioenerg Commun 2020.2. https://doi.org/10.26124/bec:2020-0002
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