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Protein Biomarkers in cancer: molecular basis and diagnosis & therapeutic applications

Code: OPT28     Acronym: PBCBMADT14

Keywords
Classification Keyword
OFICIAL Medicine

Instance: 2019/2020 - 2S (of 10-02-2020 to 31-07-2020)

Active? Yes
Responsible unit: Departamento de Patologia
Course/CS Responsible: Integrated Master in Medicine

Cycles of Study/Courses

Acronym No. of Students Study Plan Curricular Years Credits UCN Credits ECTS Contact hours Total Time
MIMED 11 Mestrado Integrado em Medicina- Plano oficial 2013 (Reforma Curricular) 2 - 1,5 14 40,5
3

Teaching language

Suitable for English-speaking students

Objectives


  • Recognize the current protein-based biomarkers used in oncology.

  • Describe the mechanism of protein biosynthesis, structure and functions.

  • Define major molecular mechanisms leading to alterations of proteins in cancer. The model of gastric carcinoma and colorectal carcinoma.

  • Integrate methods for identification and application of protein research in oncology.

  • Interpret the fundamentals of the treatments applying novel biological products in oncology.

Learning outcomes and competences


  • Recognize the current protein-based biomarkers used in oncology.

  • Describe the mechanism of protein biosynthesis, structure and functions.

  • Define major molecular mechanisms leading to alterations of proteins in cancer. The model of gastric carcinoma and colorectal carcinoma.

  • Integrate methods for identification and application of protein research in oncology.

  • To interpret the fundamentals of the treatments applying novel biological products in oncology.

Working method

Presencial

Program


  1. Cancer Biomarkers


 


1.1  Introduction to Biomarkers in cancer; from genes to proteins.


1.2  Biomarkers used in oncology: some applications and limitations.


 



  1. Molecular mechanisms leading to protein alteration


2.1  Protein Biosynthesis


2.2  Structure and Function


2.3  Post-translational Modifications of proteins: Phosphorylation; Glycosylation(N-Glycosylation e O- Glycosylation)


2.4  Other modifications


 


3    Methods for protein Characterization


3.1. Protein analysis (Chromatography; Gel electrophoresis)


3.2. Monoclonal and polyclonal antibodies (characteristics and applications)


3.4. Immunoenzymatic techniques (ELISA; RIA)


3.5. Immunohistochemistry and Immunocytochemistry


3.6. Western-Blot


3.7. Microarrays


3.8. Protein analysis by mass spectrometry


3.9. Post-translational modifications


 


4    Serological assays in Oncology


4.1  Molecular basis


4.2  Clinical applications


 


5    Proteins as therapeutic targets


5.1  Biological therapies


5.2  Antibodies targeting cancer-associated proteins; The model of anti-EGFR antibodies in colorectal cancer

Mandatory literature

Duffy MJ, van Dalen A, Haglund C et al. ; Tumour markers in colorectal cancer: European Group on Tumour Markers (EGTM) guidelines for clinical use. , 2007 (Eur. J. Cancer 43, 1348–1360 (2007).)
Reis CA, Osorio H, Silva L, Gomes C, David L. ; Alterations in glycosylation as biomarkers for cancer detection., 2010 (J Clin Pathol. 2010 Apr;63(4):322-9.)
Meza-Junco J, Sawyer MB. ; Metastatic gastric cancer - focus on targeted therapies., 2012 (Biologics. 2012;6:137-46. )

Teaching methods and learning activities

Theoretical, pratical sessions and seminars.

Evaluation Type

Evaluation with final exam

Assessment Components

Designation Weight (%)
Exame 100,00
Total: 100,00

Amount of time allocated to each course unit

Designation Time (hours)
Estudo autónomo 27,00
Frequência das aulas 14,00
Total: 41,00

Eligibility for exams

Exame

Calculation formula of final grade

Exam 100%
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