Body’s Immune Cells ‘Betraying’ It in Breast Cancer - Insights from Indian Research

Why in News?

A review by Indian researchers highlights how immune cells meant to protect the body can be reprogrammed to assist breast cancer progression.

What is breast cancer?

• Breast cancer – It is a disease where cells in the breast grow uncontrollably, forming tumors that can be invasive (spread to other tissues) or, rarely, stay in place.
• Types – The most common forms are:
  • Ductal carcinoma (starts in ducts)
  • Lobular carcinoma (starts in glands).
• In Situ vs. Invasive – Non-invasive (in situ) cancers remain in their origin spot.
• Invasive cancers spread into surrounding breast tissue, lymph nodes, or other body parts.
• Prevalence – Breast cancer is the most common cancer among women globally and remains the leading cause of cancer-related deaths in women.
• Nearly 15% of breast cancer deaths occur due to metastasis and drug resistance, highlighting the need for deeper biological understanding beyond tumour cells alone.
• Recent scientific research has shifted focus towards the tumour microenvironment, especially the role of immune cells in cancer progression.
• Symptoms – A new lump, swelling, breast skin dimpling, nipple changes (inversion or discharge), or pain.
• Detection – Regular screening, such as mammograms, is crucial for finding cancer early, often before symptoms appear.
• Risk Factors – Increasing age, family history, genetic mutations (e.g., BRCA1, BRCA2), alcohol consumption, and obesity.
• Causes – While many cases have no clear cause, they often stem from genetic damage within breast cells.
• Treatment Options – Treatment is individualized and often involves a combination of:
  • Surgery – Lumpectomy or mastectomy.
  • Radiation Therapy – High-energy rays to kill cancer cells.
  • Systemic Therapies – Chemotherapy, hormone therapy (e.g., to block estrogen), or targeted therapies (e.g., for HER2-positive).

What are the findings of the new study?

• Indian Researchers and the Review – The review was conducted by Nagaland University.
• It was published in the Breast Global Journal.
• The review focuses on the behaviour of macrophages within breast tumours and their role in metastasis.
• Role of the Immune System in Breast Cancer – Traditionally, cancer was understood as a disease caused by uncontrolled proliferation of tumour cells alone.
• The research shows that cancer can manipulate the body’s own immune system to support tumour growth and spread.

What are Macrophages?

• Macrophages – They are white blood cells that normally eliminate harmful cells through phagocytosis.
• In breast tumours, macrophages undergo behavioural changes and become tumour-associated macrophages (TAMs).
• Instead of destroying cancer cells, TAMs begin supporting tumour growth and survival.
• Different States of Macrophages – Macrophages exist in two major functional states:
  • M1 macrophages – They are anti-tumour in nature and promote inflammation to destroy abnormal cells.
  • M2 macrophages – They are involved in tissue repair and suppression of inflammation.
• Breast cancer cells push macrophages towards the M2 state, thereby weakening anti-cancer immunity.

How Tumor-Associated Macrophages Promote Cancer Progression?

• Angiogenesis – M2-type macrophages release cytokines that promote angiogenesis, which is the formation of new blood vessels.
• These blood vessels supply tumours with oxygen and nutrients, enabling rapid tumour growth.
• Tumour-associated macrophages suppress T cells, reducing the immune system’s ability to identify and kill cancer cells.
• Cancer cells also display “don’t eat me” signals that prevent macrophages from attacking them.
• TAMs remodel the extracellular matrix, making it easier for cancer cells to invade surrounding tissues and spread to distant organs.
• Role in Metastasis – By breaking down structural barriers, tumour-associated mac
• rophages facilitate the escape of cancer cells from the breast tissue.
• This enables cancer cells to metastasise to organs such as the lungs and bones.
• The interaction between tumours and macrophages forms a self-reinforcing cycle, where growing tumours attract more macrophages, which further enhance tumour progression.
• Implications for Future Cancer Therapy – Understanding the tumour–immune cell interaction opens new avenues for breast cancer treatment.
• Future therapies may focus on re-educating macrophages to revert them to their tumour-fighting M1 state.
• Another approach involves blocking molecular signals that convert macrophages into cancer-supporting cells.
• Such strategies could complement existing treatments like chemotherapy and radiotherapy.
• Significance for Targeted Immunotherapy – Reprogramming M2 macrophages could slow breast cancer progression and reduce metastasis.
• Targeted immunotherapies based on immune cell modulation may offer more precise and less toxic treatment options.
• This approach aligns with the global shift towards personalised and immune-based cancer therapies.

What lies ahead?

• Breast cancer progression is not driven solely by tumour cells but is strongly influenced by the immune microenvironment.
• The ‘betrayal’ of immune cells like macrophages represents a critical challenge as well as an opportunity in cancer treatment.
• Indian research contributes significantly to understanding this complex interaction and points towards innovative immunotherapeutic strategies for improving long-term survival in breast cancer patients.

Reference

The Hindu| Breast Cancer