CN114716420A - Fluorescent compound containing 7-cyano coumarin structural group - Google Patents

Fluorescent compound containing 7-cyano coumarin structural group Download PDF

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CN114716420A
CN114716420A CN202210257742.7A CN202210257742A CN114716420A CN 114716420 A CN114716420 A CN 114716420A CN 202210257742 A CN202210257742 A CN 202210257742A CN 114716420 A CN114716420 A CN 114716420A
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coumarin
cyano
fluorescent compound
glycoprotein
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CN114716420B (en
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张春波
关国良
赵春芳
程妍
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Nanchang University
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Abstract

The invention discloses a fluorescent compound containing a 7-cyano coumarin structural group, which is a 7-cyano coumarin fluorescent compound formed by connecting a 7-cyano coumarin report group with a 2- (6, 7-dimethoxy-3, 4-dihydro-1H-isoquinoline-2-yl) phenethyl binding group through 2-formamide-4, 5-dimethoxy benzamide and is used as a P-glycoprotein specific fluorescent probe. The invention develops a 7-cyano coumarin fluorescent compound as a P-glycoprotein specific fluorescent probe, and the fluorescent probes can be reliably used for the positioning and tracing of P-glycoprotein and have the advantages of high specificity, high sensitivity and good safety; provides a new visual angle and selection for the problems of positioning of P-glycoprotein tissue high expression regions, positioning of intracellular P-glycoprotein and research visibility and the like of diseases such as tumors, epilepsy and the like.

Description

Fluorescent compound containing 7-cyano coumarin structural group
Technical Field
The invention belongs to the technical field of fluorescent compounds, and particularly relates to a fluorescent compound containing a 7-cyano coumarin structural group.
Background
P-glycoprotein (P-glycoprotein, P-gp) is a transmembrane glycoprotein with the molecular weight of 170KD, has the function of an energy-dependent drug pump, pumps intracellular drugs out of cells, reduces the concentration of the intracellular drugs and ensures that the cells generate drug resistance. The presence of P-gp affects the absorption profile of a wide range of therapeutic drugs, including anticancer drugs, antiviral drugs, antihistamines, antiepileptics, and analgesics.
Currently, imaging of P-gp is primarily by Positron Emission Tomography (PET) technology. Wherein the PET tracer for studying P-gp function is a P-gp substrate labeled with an isotope, e.g., [ 2 ]11C]Verapamil [ alpha ], [ beta ], [ alpha ], [ beta ] and a11C]Rocarbamide [ alpha ], [ beta ], [ alpha ], [ beta ], [ alpha ], [ beta ]11C]Colchicine [ colchicine ], [ 2 ]11C]Carvedilol [ alpha ], [ beta ] -a64Cu]The composition [ alpha ], [ beta ]68Ga]The composition and99mTc]complexes, etc., which are used only to monitor the decline in P-gp in patients with Parkinson's and Alzheimer's disease, and cannot be used to observe an increase in P-gp in patients, due to their low baseline brain uptake. A small amount of an isotopically labeled P-gp inhibitor, e.g., [ solution ]11C]elacridar、[11C]laniquida [ Lamiquidar ], [ alpha ], [ beta ], [ alpha ], [ beta ], and11C]tarquidar was also studied for imaging P-gp expression, but its actual effect remains to be examined further.
In addition, the inspection cost of the PET technology is relatively high, and the actual operation and the result credibility are difficult due to the safety guarantee of the examinees, the influence of the concurrent use of the drugs on the PET, and the like.
Disclosure of Invention
Aiming at the defects and problems in the prior art, the invention aims to provide a fluorescent compound containing a 7-cyano coumarin structural group, develop a visible P-glycoprotein tracer, and provide a new visual angle and selection for the positioning of a P-glycoprotein tissue high expression region, the positioning of intracellular P-glycoprotein and the research visibility of the positioning and the like of diseases such as tumors, epilepsy and the like. The excellent P-glycoprotein co-localization capability and safety of the compound are verified by methods such as computer-aided drug design, fluorescence property determination, cytotoxicity determination, cell and tissue imaging evaluation and the like.
The invention is realized by the following technical scheme:
the invention provides a fluorescent compound containing a 7-cyano coumarin structural group, which is a 7-cyano coumarin fluorescent compound formed by connecting a 7-cyano coumarin report group with a 2- (6, 7-dimethoxy-3, 4-dihydro-1H-isoquinoline-2-yl) phenethyl binding group through 2-formamide-4, 5-dimethoxy benzamide, and the structural formula of the fluorescent compound is shown as the following formula (1):
Figure BDA0003549443630000021
the 7-cyano coumarin fluorescent compound is used for a P-glycoprotein specific fluorescent probe.
Compared with the prior art, the invention has the beneficial effects that:
1. the invention develops a 7-cyano coumarin fluorescent compound as a P-glycoprotein specific fluorescent probe, and the fluorescent probes can be reliably used for the positioning and tracing of P-glycoprotein and have the advantages of high specificity, high sensitivity and good safety; provides a new visual angle and selection for the problems of positioning of P-glycoprotein tissue high expression regions, positioning of intracellular P-glycoprotein and research visibility and the like of diseases such as tumors, epilepsy and the like.
2. The invention adopts the P-glycoprotein specificity tracer for fluorescence imaging, has no radioactive damage and high safety compared with the currently used PET tracer, only needs the auxiliary operation of a fluorescence imaging instrument, and has simple, convenient and visual result analysis.
Drawings
FIG. 1 is a design drawing of a fluorescent compound of the present invention;
FIG. 2 is a scheme showing the synthesis of fluorescent compound S1-M04 according to the present invention;
FIG. 3 is a graph of the UV absorption of fluorescent compound S1-M04 according to the present invention;
FIG. 4 is a graph of the fluorescence intensity of fluorescent compound S1-M04 according to the invention;
FIG. 5 is a graph of cell survival for fluorescent compound S1-M04 of the present invention;
FIG. 6 is a photograph of co-localization of fluorescent compound S1-M04 with P-glycoprotein according to the present invention;
FIG. 7 shows the staining of a liver section with the fluorescent compound S1-M04 of the present invention.
Detailed Description
The invention will be further described with reference to the accompanying drawings.
EXAMPLE 1 design and Synthesis of fluorescent Compounds
As shown in figure 1, S1-M04 is a 7-cyano coumarin fluorescent compound S1-M04 formed by connecting a 7-cyano coumarin reporter group with a 2- (6, 7-dimethoxy-3, 4-dihydro-1H-isoquinolin-2-yl) phenethyl binding group through 2-formamide-4, 5-dimethoxy benzamide.
In order to determine whether the designed small molecules can be combined with P-gp or not and the possibility of the small molecules in practical application, physicochemical properties and molecular docking calculation are carried out by adopting chemical calculation and molecular simulation software MOE developed by chemical calculation group companies of Canada.
The result shows that S1-M04 has good predicted binding capacity and appropriate physicochemical properties, and the specific result is shown in the following table 1, the butt joint score of the fluorescent compound S1-M04 is-17.1115 kcal/mol, the fluorescent compound shows high P-gp binding capacity and has good physicochemical properties, the log P (o/w) of the fluorescent compound is 4.82, the molecular weight of the fluorescent compound is 688.74, and the fluorescent compound is suitable for animals.
TABLE 1 physicochemical Properties and docking scores of S1-M04
Compound Log P(o/w) Mol.weight S(kcal/mol)
S1-M04 4.82 688.74 -17.1115
The 7-cyano coumarin fluorescent compound is prepared by taking p-nitrophenylethyl bromide, hydrochloric acid-1, 2,3, 4-tetrahydro-6, 7-dimethoxy isoquinoline, 4, 5-dimethoxy-2-nitro-benzoic acid, 2-hydroxy-4-methyl-benzaldehyde, 2-dimethyl-1, 3-dioxane-4, 6-diketone and the like as raw materials through a multi-step organic reaction. The specific synthetic route is shown in figure 2.
EXAMPLE 2 determination of the relevant optical Properties of fluorescent Compound S1-M04
The fluorescence property was measured after chemical synthesis of S1-M04
(ii) measurement of ultraviolet absorbance
The standard substance Coumarin-153 (Coumarin-153, C-153) was dissolved in absolute ethanol, compound S1-M04 was dissolved in DMSO, and the sample concentration was 30. mu.M. The absorbance was measured by an ultraviolet-visible spectrophotometer UV-2450 manufactured by SHIMADZU, Japan, and the results are shown in FIG. 3, in which the maximum absorption wavelength of S1-M04 was 424 and 447nm, and the absorbance was 0.170.
(II) measurement of fluorescence Spectroscopy
Firstly, scanning an excitation curve by using the maximum absorption wavelength of the measured ultraviolet absorbance as a fixed emission wavelength to obtain the maximum excitation wavelength, and scanning the emission curve by using the maximum excitation wavelength as the fixed excitation wavelength to obtain the maximum emission wavelength. The excitation curve and emission curve of the compound were measured by a fluorescence spectrometer F-7000 FL Spectrophotometer manufactured by HITACHI, Japan. As a result of adjusting EX Slit to 10.0nm or 5.0nm, EM Slit to 10.0nm or 5.0nm, and PMT Voltage to 400V, the maximum excitation wavelength of S1-M04 was 425nm and the maximum emission wavelength was 498nm, as shown in FIG. 4.
Example 3 cytotoxicity assays of fluorescent Compounds
Compound cytotoxicity assays were performed by thiazole blue (MTT) assay.
1. Taking cells in logarithmic phase, centrifugally collecting, then using complete culture medium to carry out heavy suspension to prepare single cell suspension, adjusting the cell concentration to 1.5 multiplied by 10^ 4/ml, and adding 200ul cell suspension into each hole of a 96-hole plate.
2. The compounds were added to each experimental group at 24h after plating with a concentration gradient of 100nM, 200nM, 1. mu.M, 2. mu.M, 10. mu.M. 37 ℃ and 5% CO2Culturing for 2-3 days.
3. The culture medium was aspirated, 10ul of MTT (5 mg/ml) was added, the culture was continued for 4 hours, the MTT was aspirated, 100ul of DMSO was added, and the absorbance was measured at 492 nm. And setting a zero setting hole (culture medium, MTT and dimethyl sulfoxide).
4. As shown in FIG. 5, the cell viability was more than 75% and the safety was high in the S1-M04 medium solution containing 100nM, 200nM, 1. mu.M, 2. mu.M, and 10. mu.M concentrations.
EXAMPLE 4 use of fluorescent Compound S1-M04
In a specific implementation, the fluorescent compound S1-M04 acts as a P-glycoprotein tracer.
(one) co-localization of S1-M04 with P-glycoprotein in LLC-PK1-MDR1-Apple cells, as shown in FIG. 6.
1. LLC-PK1-MDR1-Apple cells are cells after being transfected with MDR1-Apple (Apple is red fluorescence marker). LLC-PK1-MDR1-Apple cells are planted on a slide of a 24-pore plate two days before the experiment;
2. cells were washed 1 time with PBS before dosing, and 150. mu.l of compound (5. mu.M) was added to each well;
3. after culturing in an incubator for 1 hour, the cells were washed 2 times with PBS, the slide was taken out, the slide was covered on a slide glass on which an anti-fluorescence quenching blocking agent was dropped, fixed with nail polish, excited at 488nm (green) and 568nm (red) channels, and imaged with a 60-fold oil-immersed objective lens under a scanning confocal laser microscope A1R HD25 manufactured by NICON, Japan.
4. The results show that S1-M04 is consistent with the fluorescent position of P-glycoprotein, and S1-M04 has the capability of positioning P-glycoprotein.
(II) detecting the binding of the fluorescent compound S1-M04 to P-glycoprotein in ex vivo liver slices, as shown in FIG. 7.
1. Carrying out frozen section on the coronal plane of the liver, wherein the section thickness is 15 mu m, and the section is adhered on a glass slide;
2. drawing circles around the tissues with a histochemical pen, and dripping the compound (5 mu M) into the experimental group and the control group respectively;
3. after 30min incubation, the sections were washed twice with TBS and photographed under a fluorescence inverted microscope Ti (Nikon Japan) 10-fold objective lens for 5 fields of view (FIG. 7A is only one representative field of view) using ECFP as a filter.
4. The ratio of the binding area of the fluorescent compound to the total area is calculated by using Image Pro Plus 6.0 to the taken fluorescence pictures, the binding area ratio of the compound to the liver tissue sections of mice in a control group and an MDR1 group is counted by Graphpad prism6.01, the data is analyzed by a Multiple test-one row method, and the mean + -SEM processing is performed, the result shows that after the two groups are subjected to the statistical analysis, P is less than 0.05, and S1-M04 is considered to stain the P-glycoprotein high expression group (MDR1+ + group) with obviously more fluorescence than the control group, namely S1-M04 can specifically target the P-glycoprotein in the liver.
In conclusion, the compound S1-M04 has a docking score of-17.1115 kcal/mol, shows higher P-glycoprotein binding capacity and has better physicochemical properties, the Log P (o/w) of the compound is 4.82, the molecular weight of the compound is 688.74, and the compound is suitable for being applied to animal living bodies. After chemical synthesis of S1-M04, fluorescence properties and cytotoxicity were measured. In LLC-PK1-MDR1-Apple cells, the co-localization effect of the compound and the P-glycoprotein is good, and in the tissue level, the accumulation amount of the compound in the high expression P-glycoprotein group is larger than that of the control group, which indicates that the compound specifically targets the P-glycoprotein, and further verifies the localization ability of the fluorescent probe to the P-glycoprotein.
The foregoing merely represents preferred embodiments of the invention, which are described in some detail and detail, and therefore should not be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (2)

1. A fluorescent compound containing a 7-cyano coumarin structural group is characterized in that: the fluorescent compound is a 7-cyano coumarin fluorescent compound formed by connecting a 7-cyano coumarin report group with a 2- (6, 7-dimethoxy-3, 4-dihydro-1H-isoquinoline-2-yl) phenethyl binding group through 2-formamide-4, 5-dimethoxy benzamide, wherein the structural formula of the 7-cyano coumarin fluorescent compound is shown as the following formula (1):
Figure FDA0003549443620000011
2. the fluorescent compound containing a 7-cyanocoumarin structural group as claimed in claim 1, wherein: the fluorescent compound is used in a P-glycoprotein specific probe.
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008098789A2 (en) * 2007-02-16 2008-08-21 Ktb Tumorforschungsgesellschaft Mbh Dual acting prodrugs
CN104910069A (en) * 2014-12-15 2015-09-16 北京科技大学 Anthranilic acid derivative, preparation method and application thereof in medicine
US20190343827A1 (en) * 2018-05-08 2019-11-14 Izumi Technology, Llc Deuterated analogs of tariquidar

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008098789A2 (en) * 2007-02-16 2008-08-21 Ktb Tumorforschungsgesellschaft Mbh Dual acting prodrugs
CN104910069A (en) * 2014-12-15 2015-09-16 北京科技大学 Anthranilic acid derivative, preparation method and application thereof in medicine
US20190343827A1 (en) * 2018-05-08 2019-11-14 Izumi Technology, Llc Deuterated analogs of tariquidar

Non-Patent Citations (2)

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Title
MARIAGRAZIA RULLO ET AL: "1, 2, 3, 4-Tetrahydroisoquinoline/2H-chromen-2-one conjugates as nanomolar P-glycoprotein inhibitors: Molecular determinants for affinity and selectivity over multidrug resistance associated protein 1", EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY, vol. 161, pages 433 - 444, XP085529120, DOI: 10.1016/j.ejmech.2018.10.043 *
MELISSA M. SPRACHMAN ET AL: "In Vivo Imaging of Multidrug Resistance Using a Third Generation MDR1 Inhibitor", BIOCONJUGATE CHEM., vol. 25, pages 1137 - 1142, XP055860372, DOI: 10.1021/bc500154c *

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