Fluorescent oxygen channeling immunoassays

US 5,807,675 A
Filed: 06/07/1995
Issued: 09/15/1998
Est. Priority Date: 09/03/1993
Status: Expired due to Term

First Claim

Patent Images

1. A method for determining an analyte which is a specific binding pair (sbp) member, which method comprises:

(a) providing in combination;

(1) a medium suspected of containing an analyte;

(2) a photosensitizer capable in its excited state of generating singlet oxygen, wherein said photosensitizer isbbound to a sbp member or is bound to or incorporated in a particle having said sbp member incorporated therein or bound thereto; and

(3) a photoactive indicator precursor that reacts with singlet oxygen forming a photoactive indicator, wherein said photoactive indicator precursor is bound to a sbp member or is bound to or incorporated in a particle having said sbp member incorporated therein or bound thereto;

(b) exciting said photosensitizer by irradiation with light to produce singlet oxygen that reacts with said photoactive indicator precursor to produce said photoactive indicator; and

(c) irradiating said photoactive indicator and measuring the fluorescence emitted by said photoactive indicator;

wherein at least one of said sbp members is capable of binding directly or indirectly to said analyte to form a complex and the other one of said sbp members is capable of binding directly or indirectly to said analyte or to the other sbp member such that said sbp member becomes associated with said complex, and wherein said fluorescence is related to the amount of said analyte in said medium.

View all claims

6 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

Methods are disclosed for determining an analyte in a medium suspected of containing the analyte. One method comprises treating a medium suspected of containing an analyte under conditions such that the analyte, if present, causes a photosensitizer and a photoactive indicator precursor molecule to come into close proximity. The photosensitizer generates singlet oxygen which activates the photoactive indicator precursor to generate a photoactive indicator molecule. Upon irradiation with light the photoactive indicator molecule produces light, which is measured. The amount of light produced by the photoactive indicator is related to the amount of analyte in the medium. Compositions, kits, and compounds are also disclosed.

99 Citations

View as Search Results

36 Claims

1. A method for determining an analyte which is a specific binding pair (sbp) member, which method comprises:
- (a) providing in combination;
  
  (1) a medium suspected of containing an analyte;
  
  (2) a photosensitizer capable in its excited state of generating singlet oxygen, wherein said photosensitizer isbbound to a sbp member or is bound to or incorporated in a particle having said sbp member incorporated therein or bound thereto; and
  
  (3) a photoactive indicator precursor that reacts with singlet oxygen forming a photoactive indicator, wherein said photoactive indicator precursor is bound to a sbp member or is bound to or incorporated in a particle having said sbp member incorporated therein or bound thereto;
  
  (b) exciting said photosensitizer by irradiation with light to produce singlet oxygen that reacts with said photoactive indicator precursor to produce said photoactive indicator; and
  
  (c) irradiating said photoactive indicator and measuring the fluorescence emitted by said photoactive indicator;
  
  wherein at least one of said sbp members is capable of binding directly or indirectly to said analyte to form a complex and the other one of said sbp members is capable of binding directly or indirectly to said analyte or to the other sbp member such that said sbp member becomes associated with said complex, and wherein said fluorescence is related to the amount of said analyte in said medium.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The method of claim 1 wherein said photosensitizer has an absorption maximum of greater than 450 nm with an extinction coefficient of greater than 5000 M^-1 cm^-1.
  - 3. The method of claim 1 wherein said photosensitizer is selected from the group consisting of ketones, polyaromatic compounds, cyanines, merocyanines, phthalocyanines, squarate dyes, porphyrins, xanthenes and oxazenes.
  - 4. The method of claim 1 wherein said photoactive indicator has an extinction coefficient of at least 10,000 M^-1 cm ^-1 at its absorption maximum and a fluorescence emission quantum yield of at least 0.1.
  - 5. The method of claim 1 wherein said photoactive indicator is selected from the group consisting of squarate dyes, coumarins, aromatic amines, xanthenes, cyanines, merocyanines, chromenes and polyaromatic hydrocarbons.
  - 6. The method of claim 1 wherein said photosensitizer is irradiated with light having a wavelength of between 450 and 950 nanometers.
  - 7. The method of claim 6 wherein said fluorescence is measured by exciting said photoactive indicator with light and detecting the light that is emitted therefrom.
  - 8. The method of claim 7 wherein said photosensitizer is irradiated with light having a wavelength different from the wavelength of light used to irradiate said photoactive indicator.
  - 9. The method of claim 8 wherein said measurement of said fluorescence includes irradiating said photoactive indicator with light having a wavelength of between 300 and 400 nanometers.
  - 10. The method of claim 1 wherein at least one of said photosensitizer or photoactive indicator precursor is bound to or incorporated in a particle.
  - 11. The method of claim 10 wherein said particle is a suspendible particle.
  - 12. The method of claim 10 wherein said particle is separated from said medium prior to said measuring of the fluorescence.
  - 13. The method of claim 11 wherein said particle is selected from the group consisting of latex particles, lipid vesicles, oil droplets, silica particles, metal sols, and dye crystallites.
  - 14. The method of claim 1 wherein each sbp member is independently selected from the group consisting of polynucleotides and polynucleotide binding agents.
  - 15. The method of claim 1 wherein at least one of said sbp members of step (a), part (2) and part (3) is avidin.
  - 16. The method of claim 1 wherein said analyte is selected from the group consisting of a drug, a protein, a polynucleotide, a receptor and a microorganism.
  - 17. The method of claim 1 wherein said method is a homogenous immunoassay.
  - 18. The method of claim 1 wherein said photosensitizer and said photoactive indicator precursor comprise different suspended particles.
  - 19. The method of claim 1 wherein said photosensitizer and said photoactive indicator precursor are covalently bound to different sbp members.

20. A method for determining a polynucleotide analyte, which method comprises:
- (a) combining in an aqueous medium;
  
  (1) said analyte;
  
  (2) one or more polynucleotide probes, wherein each probe contains a nucleotide sequence complementary to a nucleotide sequence of said analyte and wherein at least one probe is bound to a specific binding pair (sbp) member, or is bound to or incorporated in a particle having said sbp member incorporated therein or bound thereto, said sbp member being different from said complementary nucleotide sequence;
  
  (3) a photosensitizer capable in its excited state of generating singlet oxygen, wherein said photosensitizer is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a nucleotide sequence complementary to a nucleotide sequence of said probe; and
  
  (4) a photoactive indicator precursor that reacts with singlet oxygen forming a photoactive indicator, wherein said photoactive indicator precursor is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a sbp member complementary to said sbp member bound to said probe;
  
  (b) irradiating said medium with light to excite said photosensitizer to generate singlet oxygen that reacts with said photoactive indicator precursor to produce said photoactive indicator; and
  
  (c) irradiating said photoactive indicator and measuring the fluorescence emitted by said photoactive indicator;
  
  wherein said fluorescence is related to the amount of said analyte in said medium.

21. A method for determining an analyte which is a specific binding pair (sbp) member, wherein said method comprises:
- (a) combining in an aqueous medium;
  
  (1) a sample suspected of containing an analyte;
  
  (2) a first suspendible particle comprised of a photosensitizer capable in its excited state of generating singlet oxygen, wherein said particle has a sbp member bound thereto; and
  
  (3) a second suspendible particle comprised of a photoactive indicator precursor that reacts with singlet oxygen forming a photoactive indicator, wherein said particle has a sbp member bound thereto;
  
  (b) irradiating said medium to excite said photosensitizer to generate singlet oxygen that reacts with said photoactive indicator precursor to produce said photoactive indicator; and
  
  (c) irradiating said photoactive indicator and measuring the fluorescence emitted by said photoactive indicator,wherein at least one of said sbp members is capable of binding directly or indirectly with said analyte to form a complex and the other one of said sbp members is capable of binding directly or indirectly to said analyte or to the other sbp member such that said sbp member becomes associated with said complex, and wherein said fluorescence is related to the amount of said analyte in said medium.

22. A method for determining an analyte which is a specific binding pair (sbp) member, wherein said method comprises:
- (a) providing in combination;
  
  (1) a medium suspected of containing an analyte;
  
  (2) a photosensitizer capable in its excited state of generating singlet oxygen, wherein said photosensitizer is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a sbp member; and
  
  (3) a suspendible particle having bound thereto a sbp member, wherein said suspendible particle comprises a photoactive indicator precursor that reacts with singlet oxygen forming a photoactive indicator;
  
  (b) irradiating said combination with light to excite said photosensitizer to produce singlet oxygen that reacts with said photoactive indicator precursor to produce said photoactive indicator; and
  
  (c) irradiating said photoactive indicator and measuring the fluorescence emitted by said photoactive indicator;
  
  wherein at least one of said sbp members is capable of binding directly or indirectly to said analyte to form a complex and the other one of said sbp members is capable of binding directly or indirectly to said analyte or to the other sbp member such that said sbp member becomes associated with said complex, and wherein said fluorescence is related to the amount of said analyte in said medium.

23. A method for determining an analyte, which method comprises:
- (a) providing in combination;
  
  (1) a medium suspected of containing an analyte;
  
  (2) a photosensitizer capable in its excited state of generating singlet oxygen, wherein said photosensitizer is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a first specific binding pair (sbp) member; and
  
  (3) a photoactive indicator precursor capable of forming a photoactive indicator upon reaction with singlet oxygen, wherein said photoactive indicator precursor is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a second sbp member;
  
  (b) irradiating said combination with light to excite said photosensitizer to produce singlet oxygen that reacts with said photoactive indicator precursor to produce said photoactive indicator; and
  
  (c) irradiating said photoactive indicator and measuring the fluorescence emitted by said photoactive indicator;
  
  wherein each sbp member is capable of binding directly to said analyte to form a complex wherein said photosensitizer and said photoactive indicator precursor become associated with said complex, and wherein said fluorescence is related to the amount of said analyte in said medium.

24. A composition comprising suspendible particles of average diameter of 20 to 4000 nanometers having associated therewith a photoactive indicator precursor which reacts with singlet oxygen to form a photoactive indicator, wherein said particles have thereto a specific binding pair (sbp) member, wherein said photoactive indicator precursor ##STR29## wherein H is cis to the XR group;
- X is a selenium or tellurium atom;
  
  R is an organic or organometallic group bound to X through an unsaturated carbon atom, a silicon atom, or a tin atom, and A, when taken with the carbon-carbon group, forms a alicyclic ring, optionally fused to one or more aromatic rings, or a heterocyclic ring;
  
  wherein said photoactive indicator is formed with a carbon-carbon double bond in place of said bond to said selenium or tellurium atom and said bond to said hydrogen atom.
- View Dependent Claims (25, 26, 27)
- - 25. The composition of claim 24 wherein said particle is selected from the group consisting of latex particles, lipid bilayers, oil droplets, silica particles and metal sols.
  - 26. The composition of claim 24 wherein said sbp member is selected from the group consisting of antibodies, ligands, and polynucleotides.
  - 27. The composition of claim 24 which further comprises a second suspendible particle having bound thereto or incorporated therein a photosensitizer.

28. A kit for conducting an assay for analyte, which kit comprises, in packaged combination:
- (1) suspendible particles comprising a photoactive indicator precursor, wherein said photoactive indicator precursor contains a selenium or a tellurium atom and reacts with singlet oxygen, wherein said particles have bound thereto a specific binding pair (sbp) member; and
  
  (2) a photosensitizer which is bound to a sbp member or is bound to or incorporated in a particle having said sbp member incorporated therein or bound thereto and is capable in its excited state of activating oxygen to its singlet state, wherein at least one of said sbp members is capable of binding to said analyte or to a sbp member complementary to said analyte.
- View Dependent Claims (29)
- - 29. The kit of claim 28 wherein said particles are selected from the group consisting of latex particles, lipid vesicles, oil droplets, silica particles, and metal sols.

30. A kit for conducting an assay for an analyte, which kit comprises, in packaged combination, a composition, wherein said composition comprises:
- (a) a first suspendible particle comprising a photoactive indicator precursor containing a selenium or tellurium atom, wherein said precursor reacts with singlet oxygen, wherein said first particle has bound thereto a specific binding pair (sbp) member; and
  
  (b) a second suspendible particle comprising a photosensitizer, wherein said second particle has bound thereto a sbp member;
  
  wherein at least one of said sbp members is capable of binding to said analyte or to a sbp member complementary to said analyte.
- View Dependent Claims (31, 32, 33, 34)
- - 31. The kit of claim 30 wherein each said particle is independently selected from the group consisting of latex particles, lipid vesicles, oil droplets, silica particles, and metal sols.
  - 32. The kit of claim 30 wherein said photosensitizer has an absorption maximum at greater than 500 nm with a molecular extinction coefficient of at least 1000 M^-1 cm^-1.
  - 33. The kit of claim 32 wherein said photosensitizer is selected from the group consisting of methylene blue, rose bengal, porphyrins, squarate dyes and phthalocyanines.
  - 34. The kit of claim 30 wherein at least one of said sbp members is a polynucleotide.

35. A kit for conducting an assay for an analyte, which kit comprises, in packaged combination:
- (a) a photoactive indicator precursor containing a selenium or tellurium atom, wherein said precursor reacts with singlet oxygen, wherein said photoactive indicator precursor is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a first specific binding pair (sbp) member; and
  
  (b) a photosensitizer capable in its excited state of activating oxygen to its singlet state, wherein said photosensitizer is bound to, or is bound to or incorporated in a particle having incorporated therein or bound thereto, a second sbp member,wherein said sbp members are capable of binding to said analyte or to a sbp member capable of binding said analyte.

36. A binding assay for an analyte that is a specific binding pair (sbp) member, which assay comprises:
- (a) combining a medium suspected of containing said analyte with a sbp member capable of binding directly or indirectly to said analyte or to a sbp member complementary to said analyte; and
  
  (b) detecting the binding of said sbp member to said analyte or said complementary sbp member, wherein said detection consists essentially of exposing a photoactive indicator precursor in said medium to singlet oxygen to produce a photoactive indicator and measuring the fluorescence of said photoactive indicator, said photoactive indicator precursor being conjugated to said sbp member or said complementary sbp member.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Siemens Healthcare Diagnostics Products GmbH (Siemens AG)
Original Assignee
Behringwerke Aktiengesellschaft (Sanofi )
Inventors
Davalian, Dariush, Singh, Rajendra, Ullman, Edwin F.
Primary Examiner(s)
Chan, Christina Y.
Assistant Examiner(s)
NOLAN, PATRICK J

Application Number

US08/479,743
Time in Patent Office

1,196 Days
Field of Search

435/6, 435/7.1, 435/7.5, 435/7.8, 435/7.91, 435/7.92, 436/501, 436/578, 436/533, 436/527, 436/525, 436/534, 436/536, 436/523
US Class Current

435/6.11
CPC Class Codes

C07D 311/20   hydrogenated in the hetero ...

G01N 33/533   with fluorescent label

G01N 33/569   for microorganisms, e.g. pr...

G01N 33/582   with fluorescent label

Fluorescent oxygen channeling immunoassays

First Claim

6 Assignments

0 Petitions

Accused Products

Abstract

99 Citations

36 Claims

Specification

Solutions

Use Cases

Quick Links

Fluorescent oxygen channeling immunoassays

First Claim

6 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

99 Citations

36 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links