Calorimetry-based profiling of blood plasma from colorectal cancer patients

Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma...

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Published inBiochimica et biophysica acta Vol. 1820; no. 12; pp. 1879 - 1885
Main Authors Todinova, Svetla, Krumova, Sashka, Kurtev, Panayot, Dimitrov, Valentin, Djongov, Lachezar, Dudunkov, Zlate, Taneva, Stefka G.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.12.2012
Subjects
Adult
Aged
Aged, 80 and over
Biomarkers, Tumor - blood
Blood plasma
blood proteins
Blood Proteins - metabolism
Calorimetry, Differential Scanning
Case-Control Studies
Colon - metabolism
Colorectal cancer
colorectal neoplasms
Colorectal Neoplasms - blood
Colorectal Neoplasms - classification
Colorectal Neoplasms - diagnosis
Differential scanning calorimetry
disease diagnosis
enthalpy
Excess heat capacity
Female
heat
Humans
inflammation
Inflammation - blood
Inflammation - diagnosis
Male
Middle Aged
monitoring
Neoplasm Staging
patients
phase transition
Plasma - metabolism
protein folding
proteome
Proteome - analysis
Rectum - metabolism
stomach neoplasms
temperature
Thermal transition
Thermodynamics
Transition temperature
Excess heat capacity
Differential scanning calorimetry
Transition temperature
Thermal transition
Colorectal cancer
STI
cPex
Blood plasma
TNM
ΔHcal
DSC
CRC
Tmax
TFM
GC
Online AccessGet full text
ISSN0304-4165
0006-3002
1872-8006
DOI10.1016/j.bbagen.2012.08.001

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Abstract Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma from patients with colorectal cancer (CRC) at different stages of tumor development and localization. Blood plasma from patients diagnosed with CRC was analyzed by DSC. The CRC thermograms were compared to those of healthy individuals and patients with gastric cancer and non-cancerous soft tissue inflammation. The thermodynamic parameters: excess heat capacity and enthalpy of the transitions corresponding to the most abundant plasma proteins, as well as transition and first moment temperatures were determined from the calorimetric profiles. The calorimetric profiles of blood plasma from CRC patients are found to be distinct from those of healthy individuals and those of patients with soft tissue, non-cancerous inflammation. Generally the CRC thermograms exhibit reduced heat capacity of the major albumin/globulin-assigned thermal transitions, lower enthalpy and a featureless high temperature region compared to healthy individuals. A classification of blood plasma proteome from patients with colorectal cancer (CRC1, CRC2 and CRC3 groups, and subgroups within each group CRC11–2, CRC21–2 and CRC31–2) is proposed based on the derived thermodynamic parameters. The presented data demonstrate a proof of principle and confirm that the DSC technique has a potential to monitor changes in the CRC blood plasma proteome. This study is a further step toward the validation of calorimetry as a diagnostic tool. [Display omitted] ► DSC reveals a strongly modified thermal behavior of blood plasma from CRC patients. ► The heat capacity of the major thermal transitions is altered in CRC thermograms. ► The high temperature region is featureless for majority of the CRC thermograms. ► The CRC blood plasma thermograms are classified in three groups/six subgroups. ► DSC is a sensitive tool for monitoring changes in CRC blood plasma proteome.
AbstractList BACKGROUND: Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma from patients with colorectal cancer (CRC) at different stages of tumor development and localization. METHODS: Blood plasma from patients diagnosed with CRC was analyzed by DSC. The CRC thermograms were compared to those of healthy individuals and patients with gastric cancer and non-cancerous soft tissue inflammation. The thermodynamic parameters: excess heat capacity and enthalpy of the transitions corresponding to the most abundant plasma proteins, as well as transition and first moment temperatures were determined from the calorimetric profiles. RESULTS: The calorimetric profiles of blood plasma from CRC patients are found to be distinct from those of healthy individuals and those of patients with soft tissue, non-cancerous inflammation. Generally the CRC thermograms exhibit reduced heat capacity of the major albumin/globulin-assigned thermal transitions, lower enthalpy and a featureless high temperature region compared to healthy individuals. CONCLUSIONS: A classification of blood plasma proteome from patients with colorectal cancer (CRC1, CRC2 and CRC3 groups, and subgroups within each group CRC1₁–₂, CRC2₁–₂ and CRC3₁–₂) is proposed based on the derived thermodynamic parameters. GENERAL SIGNIFICANCE: The presented data demonstrate a proof of principle and confirm that the DSC technique has a potential to monitor changes in the CRC blood plasma proteome. This study is a further step toward the validation of calorimetry as a diagnostic tool.
Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma from patients with colorectal cancer (CRC) at different stages of tumor development and localization.BACKGROUNDDifferential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma from patients with colorectal cancer (CRC) at different stages of tumor development and localization.Blood plasma from patients diagnosed with CRC was analyzed by DSC. The CRC thermograms were compared to those of healthy individuals and patients with gastric cancer and non-cancerous soft tissue inflammation. The thermodynamic parameters: excess heat capacity and enthalpy of the transitions corresponding to the most abundant plasma proteins, as well as transition and first moment temperatures were determined from the calorimetric profiles.METHODSBlood plasma from patients diagnosed with CRC was analyzed by DSC. The CRC thermograms were compared to those of healthy individuals and patients with gastric cancer and non-cancerous soft tissue inflammation. The thermodynamic parameters: excess heat capacity and enthalpy of the transitions corresponding to the most abundant plasma proteins, as well as transition and first moment temperatures were determined from the calorimetric profiles.The calorimetric profiles of blood plasma from CRC patients are found to be distinct from those of healthy individuals and those of patients with soft tissue, non-cancerous inflammation. Generally the CRC thermograms exhibit reduced heat capacity of the major albumin/globulin-assigned thermal transitions, lower enthalpy and a featureless high temperature region compared to healthy individuals.RESULTSThe calorimetric profiles of blood plasma from CRC patients are found to be distinct from those of healthy individuals and those of patients with soft tissue, non-cancerous inflammation. Generally the CRC thermograms exhibit reduced heat capacity of the major albumin/globulin-assigned thermal transitions, lower enthalpy and a featureless high temperature region compared to healthy individuals.A classification of blood plasma proteome from patients with colorectal cancer (CRC1, CRC2 and CRC3 groups, and subgroups within each group CRC1(1-2), CRC2(1-2) and CRC3(1-2)) is proposed based on the derived thermodynamic parameters.CONCLUSIONSA classification of blood plasma proteome from patients with colorectal cancer (CRC1, CRC2 and CRC3 groups, and subgroups within each group CRC1(1-2), CRC2(1-2) and CRC3(1-2)) is proposed based on the derived thermodynamic parameters.The presented data demonstrate a proof of principle and confirm that the DSC technique has a potential to monitor changes in the CRC blood plasma proteome. This study is a further step toward the validation of calorimetry as a diagnostic tool.GENERAL SIGNIFICANCEThe presented data demonstrate a proof of principle and confirm that the DSC technique has a potential to monitor changes in the CRC blood plasma proteome. This study is a further step toward the validation of calorimetry as a diagnostic tool.
Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma from patients with colorectal cancer (CRC) at different stages of tumor development and localization. Blood plasma from patients diagnosed with CRC was analyzed by DSC. The CRC thermograms were compared to those of healthy individuals and patients with gastric cancer and non-cancerous soft tissue inflammation. The thermodynamic parameters: excess heat capacity and enthalpy of the transitions corresponding to the most abundant plasma proteins, as well as transition and first moment temperatures were determined from the calorimetric profiles. The calorimetric profiles of blood plasma from CRC patients are found to be distinct from those of healthy individuals and those of patients with soft tissue, non-cancerous inflammation. Generally the CRC thermograms exhibit reduced heat capacity of the major albumin/globulin-assigned thermal transitions, lower enthalpy and a featureless high temperature region compared to healthy individuals. A classification of blood plasma proteome from patients with colorectal cancer (CRC1, CRC2 and CRC3 groups, and subgroups within each group CRC1(1-2), CRC2(1-2) and CRC3(1-2)) is proposed based on the derived thermodynamic parameters. The presented data demonstrate a proof of principle and confirm that the DSC technique has a potential to monitor changes in the CRC blood plasma proteome. This study is a further step toward the validation of calorimetry as a diagnostic tool.
Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was recognized as a novel tool for disease diagnosis and monitoring. To further elaborate this approach we have applied DSC in a study of blood plasma from patients with colorectal cancer (CRC) at different stages of tumor development and localization. Blood plasma from patients diagnosed with CRC was analyzed by DSC. The CRC thermograms were compared to those of healthy individuals and patients with gastric cancer and non-cancerous soft tissue inflammation. The thermodynamic parameters: excess heat capacity and enthalpy of the transitions corresponding to the most abundant plasma proteins, as well as transition and first moment temperatures were determined from the calorimetric profiles. The calorimetric profiles of blood plasma from CRC patients are found to be distinct from those of healthy individuals and those of patients with soft tissue, non-cancerous inflammation. Generally the CRC thermograms exhibit reduced heat capacity of the major albumin/globulin-assigned thermal transitions, lower enthalpy and a featureless high temperature region compared to healthy individuals. A classification of blood plasma proteome from patients with colorectal cancer (CRC1, CRC2 and CRC3 groups, and subgroups within each group CRC11–2, CRC21–2 and CRC31–2) is proposed based on the derived thermodynamic parameters. The presented data demonstrate a proof of principle and confirm that the DSC technique has a potential to monitor changes in the CRC blood plasma proteome. This study is a further step toward the validation of calorimetry as a diagnostic tool. [Display omitted] ► DSC reveals a strongly modified thermal behavior of blood plasma from CRC patients. ► The heat capacity of the major thermal transitions is altered in CRC thermograms. ► The high temperature region is featureless for majority of the CRC thermograms. ► The CRC blood plasma thermograms are classified in three groups/six subgroups. ► DSC is a sensitive tool for monitoring changes in CRC blood plasma proteome.
Author Dudunkov, Zlate
Djongov, Lachezar
Taneva, Stefka G.
Todinova, Svetla
Krumova, Sashka
Dimitrov, Valentin
Kurtev, Panayot
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  surname: Todinova
  fullname: Todinova, Svetla
  organization: Institute of Biophysics and Biomedical Engineering, Bulgarian Academy of Sciences, Acad. G. Bonchev Str. 21, Sofia 1113, Bulgaria
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  givenname: Sashka
  surname: Krumova
  fullname: Krumova, Sashka
  organization: Institute of Biophysics and Biomedical Engineering, Bulgarian Academy of Sciences, Acad. G. Bonchev Str. 21, Sofia 1113, Bulgaria
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  givenname: Panayot
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  fullname: Kurtev, Panayot
  organization: National Oncology Hospital, Plovdivsko pole 6, Sofia 1756, Bulgaria
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  givenname: Valentin
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  fullname: Dimitrov, Valentin
  organization: National Oncology Hospital, Plovdivsko pole 6, Sofia 1756, Bulgaria
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  organization: National Oncology Hospital, Plovdivsko pole 6, Sofia 1756, Bulgaria
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  givenname: Stefka G.
  surname: Taneva
  fullname: Taneva, Stefka G.
  email: stefka.germanova@ehu.es
  organization: Institute of Biophysics and Biomedical Engineering, Bulgarian Academy of Sciences, Acad. G. Bonchev Str. 21, Sofia 1113, Bulgaria
BackLink https://www.ncbi.nlm.nih.gov/pubmed/22903026$$D View this record in MEDLINE/PubMed
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Issue 12
Keywords Excess heat capacity
Differential scanning calorimetry
Transition temperature
Thermal transition
Colorectal cancer
STI
cPex
Blood plasma
TNM
ΔHcal
DSC
CRC
Tmax
TFM
GC
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Snippet Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions, recently was...
BACKGROUND: Differential scanning calorimetry (DSC), a highly sensitive technique for resolving thermally-induced protein folding/unfolding transitions,...
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SubjectTerms Adult
Aged
Aged, 80 and over
Biomarkers, Tumor - blood
Blood plasma
blood proteins
Blood Proteins - metabolism
Calorimetry, Differential Scanning
Case-Control Studies
Colon - metabolism
Colorectal cancer
colorectal neoplasms
Colorectal Neoplasms - blood
Colorectal Neoplasms - classification
Colorectal Neoplasms - diagnosis
Differential scanning calorimetry
disease diagnosis
enthalpy
Excess heat capacity
Female
heat
Humans
inflammation
Inflammation - blood
Inflammation - diagnosis
Male
Middle Aged
monitoring
Neoplasm Staging
patients
phase transition
Plasma - metabolism
protein folding
proteome
Proteome - analysis
Rectum - metabolism
stomach neoplasms
temperature
Thermal transition
Thermodynamics
Transition temperature
Title Calorimetry-based profiling of blood plasma from colorectal cancer patients
URI https://dx.doi.org/10.1016/j.bbagen.2012.08.001
https://www.ncbi.nlm.nih.gov/pubmed/22903026
https://www.proquest.com/docview/1115065121
https://www.proquest.com/docview/2000009554
Volume 1820
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