Molecular Mechanisms in Cancer
Syllabus, Master's level, 3PA013
- Code
- 3PA013
- Education cycle
- Second cycle
- Main field(s) of study and in-depth level
- Medical Science A1N
- Grading system
- Pass with distinction (VG), Pass (G), Fail (U)
- Finalised by
- The Educational Board of Medicine/Chair, 23 November 2011
- Responsible department
- Department of Immunology, Genetics and Pathology
Entry requirements
120 credits of university studies within the Natural Sciences, Medical, Biomedical or civil engineers programmes.
Learning outcomes
The aim of the course is to provide an in-depth understanding of the molecular mechanisms underlying the development of cancer. The course will provide students with the knowledge and training needed to approach and formulate scientific questions relevant to the cancer biology. The course will also survey the frontiers of cancer research and aims to make the students accustomed to the applied advanced methods, technologies and state-of-the-art web-tools used in cancer research.
After this course the student should:
Know the basic aspects that characterises a tumour cell from its normal counterpart, and the genetic, epigenetic, and molecular mechanisms that underlie the transformation from a normal cell to malignant cancer cell.
Understand the major risk factors for carcinogenesis and how they are connected to the molecular mechanisms of cancer development.
Understand how genomic integrity is maintained, and the mechanisms involved in generating genetic instability in cancer, and its significance for tumour development.
Understand the basic principles for how a tumour interacts with the micro-environment, including invasive growth and metastasis, influence of inflammation and infiltration of normal cells, and how immune system recognises and kills tumour cells and the changes that allow the cancer cell to escape host defence.
Have knowledge of new therapeutic strategies targeting tumour-associated molecular mechanisms, and how the new genetic and epigenetic knowledge can be used clinically.
Content
This course will focus on the cellular and molecular mechanisms and the changes by which normal cellular controls are abrogated resulting in cancer. Introductory lectures and demonstrations on basic tumour classification and pathology will be followed by more in-depth analysis of the cell- and molecular biology of cancer. Host response to cancer will also be discussed, as well as hereditary cancer. Current clinical diagnostics and treatment of cancer will be covered as well as methods and technologies used.
Practical exercises during the course can be in the form of group demonstrations such as histopathology or cell imaging. Also web-based materials will be used.
Seminars together with researchers during the course will give opportunities for students to discuss ongoing research in the field of cancer biology.
Topics discussed during the course:
Tumour biology and tumour classification, tumour viruses, oncogenes, growth factors and receptors, signalling pathways, tumour suppressor genes, epigenetics in cancer, apoptosis, tumorigenesis, genome instability, angiogenesis, tumour immunology, clinical oncology, cancer diagnostics and treatments; current and new therapies, current methods and technologies used in cancer diagnostics and research.
Instruction
Lectures, seminars and demonstrations. Problem-oriented exercises and presentations relating to current research topics. Participation in seminars, demonstrations as well as theoretical and practical exercises is compulsory. The course may be given in English.
Assessment
Examination is arranged during and at the end of the course. A passing grade for the entire course requires fulfilment (passing grades) of exercises, laboratory work and seminars.
Reading list
- Reading list valid from Autumn 2022
- Reading list valid from Autumn 2021, version 2
- Reading list valid from Autumn 2021, version 1
- Reading list valid from Autumn 2018
- Reading list valid from Spring 2018
- Reading list valid from Autumn 2016
- Reading list valid from Autumn 2011
- Reading list valid from Spring 2005