Signal-amplifying biomarkers for the diagnosis of invasive fungal infections.
用于诊断侵袭性真菌感染的信号放大生物标志物。
基本信息
- 批准号:7297918
- 负责人:
- 金额:$ 29.31万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2007
- 资助国家:美国
- 起止时间:2007-07-15 至 2009-06-30
- 项目状态:已结题
- 来源:
- 关键词:Acquired Immunodeficiency SyndromeActinsAdrenal Cortex HormonesAmericanAspergillosisAspergillus fumigatusBiochemicalBiological AssayBiological MarkersBloodBreathingBronchoalveolar LavageBronchoalveolar Lavage FluidCause of DeathCell WallCell membraneCellsChitinaseCleaved cellClinicalClinical ProtocolsCommunicable DiseasesConditionDNADetectionDevelopmentDiagnosisDiagnosticDiseaseEndopeptidasesEnzymesEvaluationFluorogenic SubstrateFungal ProteinsGeneticGlycoside HydrolasesGoalsHandHematopoieticHumanImmuneImmune systemImmunityImmunocompromised HostImmunoglobulinsIn VitroIndividualInfectionInvasiveKnowledgeLifeLungLytA enzymeLyticMalignant NeoplasmsMass Spectrum AnalysisMetalloproteasesMethodologyMethodsMolecularMonitorMonoclonal AntibodiesMuramidaseMusMycosesNumbersOrgan TransplantationPatientsPeptide HydrolasesPeptidesPopulationPrincipal InvestigatorProteinsPublishingPurposeResearchResearch DesignRoleSamplingSensitivity and SpecificitySerum AlbuminSeveritiesSignal TransductionSiteSpectrometryStromelysin 1TechniquesTechnologyTestingTissuesTransferrinTranslationsTransplant RecipientsUrineVaccinationbasecancer therapyclinical Diagnosisclinical applicationdesigndisorder controlfungusgalactomannanimmunosuppressedimprovedinterestnovelnutritionoutcome forecastparticlepathogenprognosticprogramsprotein degradationresearch studytool
项目摘要
DESCRIPTION (provided by applicant): We are proposing to develop bioanalytical techniques to identify and characterize signal- amplifying biomarkers that improve the diagnosis and monitoring of invasive pulmonary aspergillosis. An additional goal is the creation of a reliable bioanalytical tool for patient prognosis during severe fungal infections. Fungal proteases are released in the lungs of infected patients, causing the proteolytic degradation of proteins contained in pulmonary secretions. A single protease molecule can cleave multiple substrate molecules resulting in a natural signal amplification effect. This will be exploited by 1) detecting specific proteolytic products using hypothesis-driven mass spectrometry and 2) through biochemical methods such as in-vitro cleavage of fluorogenic substrates. Our strategy will utilize immunochemical enrichment techniques for both fungal proteases and cleavage products, using enrichment matrices containing monoclonal antibodies. We have demonstrated an immunoprotective role of an intracellular fungal protein that becomes accessible to the human immune system after cell-wall degradation by pulmonary enzymes such as chitinases. Based on this finding, we will test the hypothesis that human chitinases may be induced during fungal infections, and that the level of chitinase (and other lytic activity), varies from patient to patient and depends on genetic and pathophysiological conditions. In accordance with an approved clinical protocol, we propose to obtain a set of clinical bronchoalveolar lavage fluids, blood, and urine samples from patients with suspected fungal infections. These samples will be used for the development and evaluation of signal-amplifying biomarker assays for invasive pulmonary aspergillosis. The results of this research are expected to enable translation into novel clinical applications for better diagnosis, prognosis, monitoring and ultimately control of invasive fungal infections.
The research proposed here is designed to identify signal-amplifying biomarkers that will be useful for the rapid and sensitive diagnosis of invasive fungal infections. Invasive fungal infections, such as invasive pulmonary aspergillosis, present a major problem during cancer therapy, following organ transplantation, for AIDS patients and other severe diseases that weaken the human immune defenses. The results of this exploratory study should enable translation into clinical applications that will improve the diagnosis of invasive fungal infections, which has the potential to save the lives of several thousand Americans and tens of thousands patients worldwide per year.
描述(由申请人提供):我们建议开发生物分析技术,以鉴定和表征信号放大生物标志物,从而改善侵袭性肺曲霉病的诊断和监测。另一个目标是创建一个可靠的生物分析工具,用于严重真菌感染期间的患者预后。真菌蛋白酶在感染患者的肺部释放,导致肺部分泌物中所含蛋白质的蛋白质水解降解。单个蛋白酶分子可以切割多个底物分子,导致天然信号放大效应。这将通过1)使用假设驱动的质谱法检测特异性蛋白水解产物和2)通过生物化学方法(如荧光底物的体外裂解)来利用。我们的策略将利用免疫化学富集技术的真菌蛋白酶和裂解产物,使用富集矩阵含有单克隆抗体。我们已经证明了一种细胞内真菌蛋白的免疫保护作用,这种蛋白在细胞壁被肺酶如几丁质酶降解后可以进入人体免疫系统。基于这一发现,我们将测试的假设,人类几丁质酶可能会被诱导在真菌感染,几丁质酶(和其他裂解活性)的水平,从病人到病人不同,并取决于遗传和病理生理条件。根据批准的临床方案,我们建议从疑似真菌感染患者中获得一组临床支气管肺泡灌洗液、血液和尿液样本。这些样本将用于侵袭性肺曲霉病的信号放大生物标志物检测的开发和评价。这项研究的结果有望转化为新的临床应用,以更好地诊断,预后,监测和最终控制侵袭性真菌感染。
本文提出的研究旨在确定信号放大生物标志物,这些生物标志物将有助于快速和灵敏地诊断侵袭性真菌感染。侵袭性真菌感染,如侵袭性肺曲霉病,在器官移植后的癌症治疗期间,对于AIDS患者和削弱人类免疫防御的其他严重疾病,是一个主要问题。这项探索性研究的结果应该能够转化为临床应用,这将改善侵袭性真菌感染的诊断,这有可能每年挽救数千名美国人和全球数万名患者的生命。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(2)
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MARKUS KALKUM其他文献
MARKUS KALKUM的其他文献
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{{ truncateString('MARKUS KALKUM', 18)}}的其他基金
Diagnostic assay systems for Botulinum Neurotoxins
肉毒杆菌神经毒素的诊断测定系统
- 批准号:
8685105 - 财政年份:2011
- 资助金额:
$ 29.31万 - 项目类别:
Diagnostic assay systems for Botulinum Neurotoxins
肉毒杆菌神经毒素的诊断测定系统
- 批准号:
8184637 - 财政年份:2011
- 资助金额:
$ 29.31万 - 项目类别:
Fluorescent and bioluminescent assays for botulinum neurotoxin
肉毒杆菌神经毒素的荧光和生物发光测定
- 批准号:
8260257 - 财政年份:2011
- 资助金额:
$ 29.31万 - 项目类别:
Diagnostic assay systems for Botulinum Neurotoxins
肉毒杆菌神经毒素的诊断测定系统
- 批准号:
8497600 - 财政年份:2011
- 资助金额:
$ 29.31万 - 项目类别:
Diagnostic assay systems for Botulinum Neurotoxins
肉毒杆菌神经毒素的诊断测定系统
- 批准号:
8288058 - 财政年份:2011
- 资助金额:
$ 29.31万 - 项目类别:
Diagnostic assay systems for Botulinum Neurotoxins
肉毒杆菌神经毒素的诊断测定系统
- 批准号:
8876550 - 财政年份:2011
- 资助金额:
$ 29.31万 - 项目类别:
Fluorescent and bioluminescent assays for botulinum neurotoxin
肉毒杆菌神经毒素的荧光和生物发光测定
- 批准号:
7675189 - 财政年份:2009
- 资助金额:
$ 29.31万 - 项目类别:
Signal-amplifying biomarkers for the diagnosis of invasive fungal infections.
用于诊断侵袭性真菌感染的信号放大生物标志物。
- 批准号:
7465596 - 财政年份:2007
- 资助金额:
$ 29.31万 - 项目类别:
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