Cancer Cell Biology PDF BS31004

Summary

This document is a presentation on cancer cells, outlining the molecular basis of tumorigenesis, differentiation, types and mechanisms of tumors, treatments, and cell cycle.

Full Transcript

Cancer Cell Biology

BS31004 Biochemistry and Cell Biology
Ying Liu ([email protected])
 Explain the Molecular Basis of Tumorigenesis

Intended Distinguish Between Oncogenes and
Tumor Suppressor Genes

Learning Outline the Mechanisms of Epithelial-

Outcomes Mesenchymal Transition and metastasis

Describe Methods for Cancer Diagnosis and
Treatment
 Cancer Overview

Oncogenes and Tumor
Overview Suppressor Genes

Primary Tumor Formation

EMT and Metastasis
 Cancer Overview
Two properties of cancer cells: proliferation in defiance of the normal constraints;
metastasis, invade and colonize territories normally reserved for other cells

Cells that only have proliferation produce primary (benign) tumors, which can be
surgically removed
Secondary Cancer
Secondary (malignant)
They then have to exit
tumor cells must cross
from the bloodstream or
the basal lamina, migrate
lymph and settle, survive
through connective
and proliferate in a new
tissue, and get into blood
location
or lymphatic vessels
 Cancer Cells Accumulate Mutations

Cancers develop by an Green: mutation for Green to purple: mutation
accumulation of mutations, avoiding cell death to be independent from
mostly somatic mutations (apoptosis) growth factor regulation
 Cancer Cells Accumulate Mutations

This breast cancer cell has Multiple translocations can
Mutations in cell adhesion
highly abnormal be seen, and the cell
molecules are important
chromosomes, reflecting contains 48 chromosomes
for metastasis
genetic instability instead of the normal 46
Characteristics of Cancer Cells
Lack of differentiation
Do not contribute to body function
Have abnormal nuclei that are
enlarged and may have abnormal #
of chromosomes
Unlimited ability to divide: turn on
telomerase gene that allows cells to
divide over and over again
Cancer Cells Evolve

Cancer cells
Some cancers evolve by
contain multiple repeated rounds
malignant clones, of mutation,
each with its own proliferation and
collection of natural selection
mutations

At each step, a single cell
undergoes a mutation
that enhances its ability
to proliferate or survive,
so that its progeny
become a dominant
clone in the tumor
 Oncogenes
Oncogenes act in a dominant manner: a gain-of-function mutations in a single copy of the
proto-oncogene can drive a cell toward cancer

Examples of proto-oncogenes include: Ras, ERK (MAP Kinase), EGF receptor, and
transcription factor myc
 Tumor Suppressor Genes
Tumor suppressor genes act in a recessive manner: a loss-of-function mutations in both
copies of the TS gene can drive a cell toward cancer

Examples of tumor suppresser genes include: Rb, p53 and p27
 Primary Tumor Formation

Primary tumor formation:
uncontrolled cell division
In normal cells, DNA damage can
trigger:
○ DNA repair mechanism
○ Cell cycle arrest
○ Apoptosis (programmed cell
death)
Primary Tumor Formation
In cancer cells with DNA damage,
the damage is not repaired
The damaged cell does not die as it
should
Proliferation: all the progeny cells
carry the same DNA damage
For example, half of human tumors
contain a mutation in p53 tumor
suppressor gene
Tumor Suppressors
 Tumor Suppressors
BRCA 1 and 2: involved in DNA repair
Mutations in either gene increased risk of breast
cancer and ovarian cancer
 Contact Inhibition
Normal cells adhere to their
neighbors and exhibit contact
inhibition
When they come in contact with a
neighbor, they stop dividing
Cancer cells have lost all restraint
and grow on top of each other
forming tumor (anti-social)
E-Cadherin and Contact Inhibition
E-Cadherin:
transmembrane
glycoprotein that forms
part of adherens
junctions
Essential for
maintaining tissue
architecture, integrity
and polarity
Triggers cell cycle arrest
when cells are crowded
E-Cadherin
 EMT
Epithelial-Mesenchymal Trasition: Epithelial cells lose their
characteristics and gain motility (mesenchymal trait)
N-Cadherin: found in mesenchymal cells such as fibroblasts,
endothelial cells and neural tissues
EMT
Claudins and Occludins
Claudins and Occludins
Metastasis
Melanoma
 Cancer Diagnosis
Early diagnosis:
○ Imaging: X-ray, CT, MRI,
ultrasound
○ Blood test for tumor biomarkers
○ Genetic tests for mutations in proto-
oncogenes and tumor suppressor
genes
Cancer Treatment
Local (benign) tumor:
○ Surgery
○ Radiation
Metastatic cancer:
○ Chemotherapy
Immunotherapy
○ Boost body’s immune
defenses to fight cancer
○ Vaccines, antibodies,
CAR-T cell therapy