CN108129500A - A kind of synthesis and application of the ratio type fluorescence probe for identifying hydrogen peroxide - Google Patents

Abstract

The present invention relates to one kind for detecting hydrogen peroxide (H₂O₂) fluorescence probe preparation method and application, belong to chemical analysis detection technique field.Its molecular structure is as follows：The probe molecule maximum emission wavelength is in 666nm, probe molecule and hydrogen peroxide (H₂O₂) after effect, fluorescence spectrum is blue shifted at 594nm, realizes ratio feux rouges detection hydrogen peroxide (H₂O₂), improve the sensitivity of detection；Launch wavelength can reduce the light injury of the background fluorescence and living cells during probe in detecting in red light district, and enhancing biology is to the penetration capacity of tissue.Probe molecule of the present invention has good linear in certain time and concentration range, to hydrogen peroxide (H₂O₂) recognition capability is strong, mitochondria can be accurately positioned in the good, strong antijamming capability of selectivity, realize detection hydrogen peroxide in mitochondria, such probe has important application value in fields such as biochemistries.

Description

A kind of synthesis and application of the ratio type fluorescence probe for identifying hydrogen peroxide

The invention belongs to chemical analysis detection technique fields, and in particular to detection hydrogen peroxide is novel in a kind of mitochondria The preparation method of ratio feux rouges type fluorescence probe and its in vitro with detection hydrogen peroxide (H inside living cells₂O₂) in terms of should With.

Background technology

Active oxygen (ROS) class plays important role in the physiology of biosystem and pathologic process.As important One of ROS, hydrogen peroxide generate in almost all of oxidation process, and take part in the regulation and control to bioactivity.Endogenous mistake Hydrogen oxide (H₂O₂) as a kind of " signaling molecule ", it can be conducted with activation signal, stimulate the physiological activities such as proliferation, the differentiation of cell. Excessive endogenous hydrogen peroxide (H₂O₂) generated by the catalysis stimulation of desmoenzyme, so as to generate oxidation pressure, destroy albumen The lipid moleculars such as matter, nucleic acid, damage biomolecule, it is considered to be the trigger of many diseases, as diabetes, cancer and old age are crazy about Slow-witted disease.In addition, it is a large amount of the experimental results showed that, the excessive endogenous hydrogen peroxide (H generated during mitochondrial respiratory₂O₂) Strong oxygen may be caused to damage, further cause mitochondrial swelling and Apoptosis.Therefore, it is necessary to it designs a kind of effective Method, realize subcellular organelle in hydrogen peroxide Cut-set power space detection, particularly in mitochondria.

Invention content

It is an object of the present invention to provide a kind of fluorescence probe synthetic methods of simple and effective；Another object of the present invention It is good to be to provide a kind of selectivity, strong antijamming capability has ratio red light emission wavelength, can realize to external or living cells Inside particularly mitochondria hydrogen peroxide (H₂O₂) detection fluorescence probe.

The technical solution of the present invention for solving the problems, such as to take is that a kind of ratio type identifies hydrogen peroxide novel fluorescence probe, Molecular structural formula is as follows：

Synthetic route is as follows：

Specific synthetic method is as follows：(a) by compound 1 (200.0g, 1.4mmol) and 4- bromomethyl benzene boric acid pinacol esters (620.0g, 2.1mmol) is dissolved in 2.0mL dry toluenes 110 DEG C of stirring 6h in closed reactor.It is precipitated in reaction process a large amount of White solid stops reaction and is cooled to room temperature suction filtration, and filter cake is washed with toluene, obtains pure product 2 (180.0mg, 29.3%). (b) compound 2 (160.0g, 0.46mmol) and compound 3 (100.0g, 0.4mmol) are dissolved in 2.0mL ethyl alcohol at room temperature Solution in, add in piperidines (5.0 μ L, 0.05mmol).It is stirred at room temperature after five minutes, acquired solution is flowed back 6 hours.So Reaction solution is concentrated under reduced pressure afterwards, column chromatography for separation obtains the compound 4 (60.0mg, 22.6% yield) of Orange red solid.

The mechanism of action of the fluorescence probe of the present invention is as follows, and probe molecule enhances intramolecular by the introducing of positive charge ICT effects and emit near infrared light (666nm).Hydrogen peroxide can be released in oxidised probe molecule in bromo borinate ester moiety, hydrolysis Dyestuff 6 is released, intramolecular ICT processes is reduced and leads to launch wavelength blue shift and emit feux rouges (594nm), so as to fulfill special Property detection hydrogen peroxide (H₂O₂) purpose.The response process of probe molecule is as follows：

The fluorescence probe of the present invention has ratio red emission, with hydrogen peroxide (H₂O₂) effect before transmitting near-infrared it is glimmering Light is at 666nm, and fluorescence emission peak is at 594nm after effect.

The fluorescence probe of the present invention has Mitochondrially targeted site, shows that the probe can realize mitochondria hydrogen peroxide (H₂O₂) detection.

The fluorescence probe of the present invention is selectively good.The PBS bufferings that the test system of probe molecule is the 10mM that pH is 7.0 are molten Liquid includes 30% acetonitrile, measures at room temperature.Probe molecule emits near-infrared fluorescent in itself, is adding in 40 times of equivalents of hydrogen peroxide (H₂O₂) after, fluorescence intensity, which has occurred, at maximum emission wavelength 666nm is blue shifted at 594nm.And adding in other active oxygens Substance (ROO^.,.OH,NO^.,TBHP,NaClO,^.O₂,KO₂,^.O_tBu,ONOO^-) after, fluorescence emission peak does not change.

The fluorescence probe strong antijamming capability of the present invention, other reactive oxygen species (ROO^.,.OH,NO^.,TBHP,NaClO,^.O₂,KO₂,^.O_tBu,ONOO^-) presence do not influence probe molecule and hydrogen peroxide (H₂O₂) effect.

The fluorescence probe of the present invention is in the hydrogen peroxide (H for adding in 40 times of equivalents₂O₂) after effect, fluorescence emission peak is blue shifted to 594nm, in 2h, fluorescence reaches maximum value at 594nm, and the emission peak at 666nm disappears.

The fluorescence probe of the present invention shows good dynamic phenomena, probe molecule and hydrogen peroxide (H₂O₂) selectivity After identification good linear relationship is shown with the time in, fluorescence intensity ratio.

The fluorescence probe of the present invention can realize intraor extracellular detection hydrogen peroxide (H₂O₂), pass through common location reagent Luo Dan The Mitochondrially targeted performance that bright 123 confirmation probe has had, overlap coefficient have reached 94%, have shown that the probe can realize mitochondria Interior detection hydrogen peroxide (H₂O₂)。

Probe molecule of the present invention is to hydrogen peroxide (H₂O₂) launch wavelength before response sends out after near-infrared, response It penetrates blue shift and red fluorescence is presented and active oxygen is had good selectivity and antijamming capability, and the spirit having had Sensitivity has wider application range.Long ratio transmitted wave with strong tissue penetration, the fluorescence probe biology with The fields such as chemistry have practical application value.

Description of the drawings

Fig. 1 is the fluorescence probe (10.0 × 10 of the present invention^-6Mol/L) in PBS (10mM, pH=7.0)/CH₃CN30% is molten In liquid, with hydrogen peroxide (H₂O₂) the front and rear spectrum change figure of effect, abscissa is wavelength, and ordinate is respectively that absorbing/fluorescent is strong Degree.

Fig. 2 is the fluorescence probe (10.0 × 10-6mol/L) of the present invention in PBS (10mM, pH=7.0)/CH₃In CN30% Fluorescent emission spectrogram with add in hydrogen peroxide (H₂O₂) amount variation.

Fig. 3 is the fluorescence probe (10.0 × 10 of the present invention^-6Mol/L) in PBS (10mM, pH=7.0)/CH₃In CN30% The fluorogram variation of selectivity test, abscissa is wavelength, and ordinate is fluorescence intensity.

Fig. 4 is the fluorescence probe (10.0 × 10 of the present invention^-6Mol/L) in PBS (10mM, pH=7.0)/CH₃In CN30% The bar chart of selectivity, ordinate I₅₉₄/I₆₆₆The variation of intensity.

Fig. 5 is the fluorescence probe (10.0 × 10-6mol/L) of the present invention in PBS (10mM, pH=7.0)/CH₃In CN30% Detect hydrogen peroxide (H₂O₂) there is (ROO^.,.OH,NO^.,TBHP,NaClO,^.O₂,KO₂,^.O_tBu,ONOO^-) isoreactivity oxygen species When anti-interference bar chart, ordinate I₅₉₄/I₆₆₆The variation of intensity.

Fig. 6 is the fluorescence probe (10.0 × 10-6mol/L) of the present invention in PBS (10mM, pH=7.0)/CH₃CN30% In, with hydrogen peroxide (H₂O₂) the linear relationship research of ratio fluorescence intensity and time in mechanism.

Fig. 7 is the fluorescence probe (10.0 × 10-6mol/L) of the present invention in PBS (10mM, pH=7.0)/CH₃CN30% In, with hydrogen peroxide (H₂O₂) before and after effect, I₅₉₄/I₆₆₆The curve that intensity changes over time.

Fig. 8 is the toxicity research experiment of the fluorescence probe cell applicability of the present invention, and abscissa is concentration and probe concentration, ordinate For cell survival rate.

The fluorescence probe that Fig. 9 is the present invention detects endogenous, exogenous hydrogen peroxide (H in the cell₂O₂) imaging it is real It tests, first is horizontally-arranged for the probe imaging contexts of (10 μM) in the cell in itself；Second is horizontally-arranged to add in probe (10 μM) and external source Property hydrogen peroxide (H₂O₂) imaging contexts after (0.5mM)；Third it is horizontally-arranged for add in endogenous stimulus drug PMA (1 μ g/mL) and Probe (10 μM) detects hydrogen peroxide (H afterwards₂O₂) imaging contexts, the experimental result obtained using 488nm as excitation wavelength.

Figure 10 is the common location imaging experiment of the fluorescence probe of the present invention, and b is common location reagent Rhodamine 123 (2.0 μM) Image, c be probe (10 μM) imaging experiment figure, a be b and c Overlay figure, d be light field design sketch, use The experimental result that 488nm is obtained as excitation wavelength.

Figure 11 is the overlap coefficient that the fluorescence probe common location of the present invention is tested, and illustrates probe and common location reagent energy Overlapping very well, so as to verify that mitochondria can be accurately positioned in probe.

Example is embodied

Embodiment 1：The synthesis of probe molecule

Compound 2 (160.0g, 0.46mmol) and compound 3 (100.0g, 0.4mmol) are dissolved in 2.0mL ethyl alcohol at room temperature In solution in, add in piperidines (5.0 μ L, 0.05mmol).It is stirred at room temperature after five minutes, acquired solution is flowed back 6 hours. Then reaction solution is concentrated under reduced pressure, with methylene chloride/methanol (v/v=15/1) for eluant, eluent carry out column chromatography for separation obtain it is orange red The compound 4 (60.0mg, 22.6% yield) of color solid.HRMS(EI)m/z:calcd for C₃₇H₃₄BN₂O₃S⁺(M+H)⁺ 597.23777,found597.23822.¹H NMR(400MHz,DMSO)δ_H 12.35(s,1H),9.61(s,1H),9.12(s, 1H), 8.77 (s, 1H), 8.68 (s, 1H), 8.46 (d, J=15.1Hz, 2H), 8.33 (s, 3H), 8.19 (s, 2H), 8.12 (s, 2H), 8.00 (s, 1H), 7.79 (d, J=6.2Hz, 1H), 7.59 (s, 1H), 7.49 (s, 1H), 7.33 (s, 2H), 6.28 (s, 2H),1.23(s,13H).¹³C NMR(101MHz,DMSO)δ_c 163.98,160.12,159.12,154.31,151.85, 149.78,148.53,144.18,138.51,137.27,136.62,135.61,135.14,132.04,131.72,130.05, 129.72,127.97,127.58,127.25,127.01,126.36,125.68,123.47,122.60,120.00,118.45, 116.54,60.00,59.43,31.59,30.26,29.36,20.37.

Embodiment 2：The application of the fluorescence probe of the present invention

Probe molecule is dissolved in PBS (10mM, pH=7.0)/CH₃10.0 × 10 are configured in CN30%^-6The solution of mol/L, to Various reactive oxygen species (ROO are added in solution^.,^.OH,NO^.,TBHP,NaClO,^.O₂,KO₂,^.O_tBu,ONOO^-) after do not cause The significant change of probe itself emission peak, as hydrogen peroxide (H₂O₂) and interfering substance (ROO^.,^.OH,NO^.,TBHP,NaClO,^.O₂,KO₂,^.O_tBu,ONOO^-) when coexisting, can occur to respond and the transmitting of itself is caused to disappear and blue shift occurs and generates new hair Peak is penetrated, the influence of the interference-free factor of probe shows very strong antijamming capability.The probe molecule and hydrogen peroxide (H₂O₂) response all have good linear relationship within certain time and concentration range.Show probe energy by Cellular imaging assays For endogenous, exogenous hydrogen peroxide (H₂O₂) detection, common location experimental result confirm probe mitochondria can be accurately positioned, Good biological adaptation ability is shown, so as to fulfill mitochondria hydrogen peroxide (H₂O₂) detection.

Claims (2)

1. a kind of identification hydrogen peroxide (H₂O₂) fluorescence probe synthesis, structure is：

2. a kind of detection hydrogen peroxide (H in the cell₂O₂) ratio type red light emitting phosphor probe application.