ETIOPATHOGENESIS OF LUNG CARCINOMA

Most common cause of cancer mortality worldwide
Age : 40-70 yrs with peak incidence in 50s and 60s
2% of cases appear before the age of 40 years
Sex: Males>Females

ETIOLOGIC FACTORS

Tobacco smoking
- 87 % of lung cancers occur in active smokers
- Linear correlation between – Amount of daily smoking and duration of the smoking habit
- Average smokers – 10 fold risk of developing malignancy
- Heavy smokers (2 packs/ day)– 60 fold risk of developing cancer
- Most common carcinomas associated are Squamous & Small cell Ca >98%
- Cessation of smoking decreases the risk of cancer but never returns to base line
- Passive smoking increases the risk for lung cancer – twice that of non- cancer
- Women have higher susceptibility to tobacco carcinogens than men
- Smoking by cigars and pipes also increases the risk but less than that of cigarette smoking
- Smokeless tobacco is not safe substitute for cigarette smoking, as they spare lungs but cause oral cancers and lead to nicotine addiction
- More than 1200 substances are present in cigarette smoke, many of which are potential carcinogens
  - Initiators : Polycyclic aromatic hydrocarbons (Benzopyrene)
  - Promotors : Phenol derivatives, Radio active elements (Carbon-14, pot.40), Arsenic, nickel, molds etc.
Industrial hazards
- Industrial exposures such as asbestos, arsenic, chromium, uranium, nickle, vinyl chloride and mustard gas increases risk of lung cancer
- High-dose ionizing radiation is carcinogenic
- Uranium coupled with smoking – 10 increased risk of developing carcinomas
- Asbestos coupled with smoking – 50 times increased risk of developing malignancy
- Asbestos workers with out smoking – 5 folds increased risk
Air pollution
- Adds to risk who smoke or non smokers exposed to second hand smoke
- Chronic exposure to air particulates in smog causes lung irritation, chronic inflammation and repair which increases risk for cancers
- Radon-a ubiquitous radioactive gas attach to environmental aerosols and enters lung by inhalation & Bronchial deposition leads to risk of developing malignancy
Dietary factors:
- Vitamin-A deficiency if associated with smoking increases risk of developing carcinomas
Chronic scarring :
- Adeno Carcinoma occurs in areas of chronic scarring
- Eg: Old TB, Chronic interstitial fibrosis, Asbestosis, old infarcts, Scleroderma
All the smokers do not develop lung cancer due to modified mutagenic effect of carcinogens in smoke by genetic variants (11% of heavy smokers develop lung cancers)
For example – many chemical carcinogens are converted to active carcinogens via activation through highly polymorphic p-450 monooxygenase enzyme system.
Specific p-450 polymorphisms have an increased capacity to activate procarcinogens in cigarette smoke, and smokers with this genetic variant have increased risk
MOLECULAR GENETICS
- 10 to 20 genetic mutations occur by the time tumor is clinically apparent
- Dominant oncogenes : C-Myc, K-RAS
- Commonly deleted / inactivated tumor suppressor genes : p53, RB, p16 ch.3p
- p53 mutations : Both small & non-small cell carcinomas
CYTOGENETIC ABNORMALITIES IN SPECIFIC TUMORS
Squamous cell carcinoma
- ASSOCIATED WITH SMOKING
- CHROMOSOMAL DELETION – 3p, 9p (site of CDKN2A gene) and 17p (Site of TP53 gene)
- LOSS OF EXPRESSION of Rb tumor suppressor gene
- AMPLIFICATION of FGFR1
- INACTIVATION of cyclin dependent kinase inhibitor gene – p16 protein lost
Adenocarcinoma
- GAIN OF FUNCTION MUTATIONS involving multiple genes encoding tyrosine kinase receptors – EGFR, ALK, ROS, MET and RET
- MUTATIONS in the KRAS gene in tumors without tyrosine kinase gene
Small cell carcinoma
- STRONGLY ASSOCIATED WITH SMOKING
- LOSS OF FUNCTION ABERRATIONS involving TP53 and Rb gene
- Chromosome 3p deletions
- AMPLIFICATION of genes of Myc family
Lung cancer in non-smokers
- More common in females and are adenocarcinomas
- Common mutations – EGFR
- TP 53 mutations – not uncommon
Inherited predisposition
- Rare – found in Li-Fraumeni syndrome who inherit p53 mutations
- First degree relatives – 2-3 folds increased risk

ETIOPATHOGENESIS OF LUNG CARCINOMA

Most common cause of cancer mortality worldwide

Age : 40-70 yrs with peak incidence in 50s and 60s

2% of cases appear before the age of 40 years

Sex: Males>Females

Tobacco smoking

87 % of lung cancers occur in active smokers

Linear correlation between – Amount of daily smoking and duration of the smoking habit

Average smokers – 10 fold­ risk of developing malignancy

Heavy smokers (2 packs/ day)– 60 fold ­ risk of developing cancer

Most common carcinomas associated are Squamous & Small cell Ca >98%

Cessation of smoking decreases the risk of cancer but never returns to base line

Passive smoking increases the risk for lung cancer – twice that of non- cancer

Women have higher susceptibility to tobacco carcinogens than men

Smoking by cigars and pipes also increases the risk but less than that of cigarette smoking

Smokeless tobacco is not safe substitute for cigarette smoking, as they spare lungs but cause oral cancers and lead to nicotine addiction

More than 1200 substances are present in cigarette smoke, many of which are potential carcinogens

Initiators : Polycyclic aromatic hydrocarbons (Benzopyrene)

Promotors : Phenol derivatives, Radio active elements (Carbon-14, pot.40), Arsenic, nickel, molds etc.

Industrial hazards

Industrial exposures such as asbestos, arsenic, chromium, uranium, nickle, vinyl chloride and mustard gas increases risk of lung cancer

High-dose ionizing radiation is carcinogenic

Uranium coupled with smoking – 10 increased risk of developing carcinomas

Asbestos coupled with smoking – 50 times increased risk of developing malignancy

Asbestos workers with out smoking – 5 folds increased risk

Air pollution

Adds to risk who smoke or non smokers exposed to second hand smoke

Chronic exposure to air particulates in smog causes lung irritation, chronic inflammation and repair which increases risk for cancers

Radon-a ubiquitous radioactive gas attach to environmental aerosols and enters lung by inhalation & Bronchial deposition leads to risk of developing malignancy

Dietary factors:

Vitamin-A deficiency if associated with smoking ­ increases risk of developing carcinomas

Chronic scarring :

Adeno Carcinoma occurs in areas of chronic scarring

Eg: Old TB, Chronic interstitial fibrosis, Asbestosis, old infarcts, Scleroderma

All the smokers do not develop lung cancer due to modified mutagenic effect of carcinogens in smoke by genetic variants (11% of heavy smokers develop lung cancers)

For example – many chemical carcinogens are converted to active carcinogens via activation through highly polymorphic p-450 monooxygenase enzyme system.

Specific p-450 polymorphisms have an increased capacity to activate procarcinogens in cigarette smoke, and smokers with this genetic variant have increased risk

10 to 20 genetic mutations occur by the time tumor is clinically apparent

Dominant oncogenes : C-Myc, K-RAS

Commonly deleted / inactivated tumor suppressor genes : p53, RB, p16 ch.3p

p53 mutations : Both small & non-small cell carcinomas

Squamous cell carcinoma

ASSOCIATED WITH SMOKING

CHROMOSOMAL DELETION – 3p, 9p (site of CDKN2A gene) and 17p (Site of TP53 gene)

LOSS OF EXPRESSION of Rb tumor suppressor gene

AMPLIFICATION of FGFR1

INACTIVATION of cyclin dependent kinase inhibitor gene – p16 protein lost

Adenocarcinoma

GAIN OF FUNCTION MUTATIONS involving multiple genes encoding tyrosine kinase receptors – EGFR, ALK, ROS, MET and RET

MUTATIONS in the KRAS gene in tumors without tyrosine kinase gene

Small cell carcinoma

STRONGLY ASSOCIATED WITH SMOKING

LOSS OF FUNCTION ABERRATIONS involving TP53 and Rb gene

Chromosome 3p deletions

AMPLIFICATION of genes of Myc family

Lung cancer in non-smokers

More common in females and are adenocarcinomas

Common mutations – EGFR

TP 53 mutations – not uncommon

Inherited predisposition

Rare – found in Li-Fraumeni syndrome who inherit p53 mutations

First degree relatives – 2-3 folds increased risk

References

Vinay kumar, Abul K.Abbas, Nelson Fausto, Jon C. Aster. Robbins and Cotran Pathologic basis of disease. 9th edition

Average smokers – 10 fold risk of developing malignancy

Heavy smokers (2 packs/ day)– 60 fold risk of developing cancer

Vitamin-A deficiency if associated with smoking increases risk of developing carcinomas