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What Kind of People Are Resistant to HIV?

by Kaia

Human Immunodeficiency Virus (HIV) is a formidable adversary in the realm of infectious diseases, known for its ability to evade the immune system and lead to Acquired Immunodeficiency Syndrome (AIDS). However, not everyone exposed to HIV becomes infected. Some individuals exhibit a natural resistance to the virus. This phenomenon has intrigued scientists for decades and has led to significant insights into how the virus operates and potential pathways for treatment and prevention.

The Role of CCR5 and Delta 32 Mutation

One of the most well-documented mechanisms of HIV resistance involves the CCR5 gene. This gene encodes a protein that serves as a receptor on the surface of certain immune cells, including T cells. HIV typically uses this receptor to gain entry into the cells.

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The Delta 32 Mutation

Some individuals possess a mutation in the CCR5 gene known as Delta 32. This mutation results in a truncated, non-functional CCR5 receptor. Without a functional CCR5 receptor, HIV struggles to enter the cells, rendering these individuals highly resistant to the virus.

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Prevalence of Delta 32

The Delta 32 mutation is relatively rare and occurs with higher frequency in populations of European descent, with about 1% of people in this group being homozygous for the mutation (carrying two copies) and about 10-15% being heterozygous (carrying one copy). Homozygous individuals are nearly completely resistant to HIV infection, while heterozygous individuals have a significantly lower risk of infection and, if infected, tend to progress to AIDS more slowly.

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Elite Controllers and Long-Term Non-Progressors

Another group of individuals who demonstrate resistance to HIV are known as elite controllers and long-term non-progressors. These people do become infected with HIV but manage to control the virus without antiretroviral therapy (ART).

Elite Controllers

Elite controllers are a rare group (less than 1% of HIV-infected individuals) who can maintain undetectable viral loads for extended periods without treatment. Their immune systems are particularly adept at targeting and destroying HIV-infected cells.

Mechanisms of Control

Several mechanisms contribute to this control:

Strong CD8+ T Cell Response: Elite controllers often have highly effective CD8+ T cells that can identify and kill HIV-infected cells.

HLA (Human Leukocyte Antigen) Variants: Certain HLA alleles are more effective at presenting HIV peptides to immune cells, facilitating a stronger immune response.

Regulatory T Cells and Natural Killer Cells: These cells play a role in modulating the immune response and directly attacking infected cells.

Genetic Factors Beyond CCR5

While the CCR5 Delta 32 mutation is the most well-known genetic factor associated with HIV resistance, other genetic factors also play a role.

HLA-B57 and HLA-B27

HLA-B57 and HLA-B27 are specific alleles of the human leukocyte antigen (HLA) system that are associated with a slower progression of HIV infection. These alleles enable more efficient presentation of HIV peptides to cytotoxic T cells, enhancing the immune response.

TRIM5α and APOBEC3G

Proteins such as TRIM5α and APOBEC3G are involved in the innate immune response to viral infections. Variants of these proteins can inhibit HIV replication at different stages of the virus’s life cycle. For instance, TRIM5α can prevent the uncoating of HIV, while APOBEC3G can induce mutations in the viral genome, rendering it non-functional.

Immune System Components and HIV Resistance

The immune system’s complexity means that resistance to HIV can involve numerous components working in concert.

Neutralizing Antibodies

Some individuals develop broadly neutralizing antibodies (bNAbs) that can target a wide range of HIV strains. These antibodies can neutralize the virus before it infects cells.

Innate Immune Response

The innate immune response, which acts as the body’s first line of defense, can also contribute to HIV resistance. Components such as natural killer (NK) cells and interferons can limit viral replication and spread.

Cytokines and Chemokines

Certain cytokines and chemokines (signaling molecules) can create an environment that is hostile to HIV. For example, chemokines like RANTES, MIP-1α, and MIP-1β can bind to CCR5, blocking HIV from using the receptor to enter cells.

Environmental and Behavioral Factors

Beyond genetic and immunological factors, environmental and behavioral factors can influence susceptibility to HIV.

Circumcision

Studies have shown that circumcision can reduce the risk of HIV acquisition in men. The removal of the foreskin, which is rich in HIV target cells, decreases the likelihood of infection.

Sexual Practices and Partners

The number of sexual partners, use of condoms, and type of sexual practices all impact the risk of HIV transmission. Consistent and correct use of condoms is highly effective in preventing HIV.

Pre-Exposure Prophylaxis (PrEP)

For individuals at high risk of HIV infection, pre-exposure prophylaxis (PrEP) with antiretroviral drugs can significantly reduce the risk of acquiring the virus.

Sociocultural and Economic Influences

Sociocultural and economic factors can also affect HIV resistance indirectly by influencing behavior, access to healthcare, and the likelihood of engaging in high-risk activities.

Education and Awareness

Higher levels of education and awareness about HIV transmission and prevention can lead to safer behaviors and lower infection rates.

Access to Healthcare

Access to regular healthcare and HIV testing allows for early detection and treatment, reducing the chances of progression and transmission.

Economic Stability

Economic stability can reduce the likelihood of engaging in risky behaviors for survival, such as sex work, which is associated with a higher risk of HIV.

See Also: What is World AIDS Day and Why is it Celebrated?

The Future of HIV Research and Prevention

Understanding the mechanisms of HIV resistance has profound implications for the development of new treatments and vaccines.

Gene Editing

Techniques like CRISPR-Cas9 hold promise for editing genes such as CCR5, potentially providing a form of resistance to those without the natural Delta 32 mutation.

Vaccine Development

Research into bNAbs and the immune responses of elite controllers is informing the design of vaccines that could elicit similar protective responses in the broader population.

Personalized Medicine

The insights gained from studying HIV-resistant individuals are paving the way for personalized medicine approaches, tailoring prevention and treatment strategies based on individual genetic and immunological profiles.

Conclusion

HIV resistance is a multifaceted phenomenon influenced by genetic, immunological, environmental, and behavioral factors. From the Delta 32 mutation in the CCR5 gene to the robust immune responses of elite controllers, the study of HIV-resistant individuals provides valuable insights into the virus and potential pathways for combating it. Continued research in this field not only enhances our understanding of HIV but also brings us closer to effective prevention and treatment strategies that could one day eradicate the virus. By leveraging the knowledge gained from resistant individuals, we can hope to develop interventions that protect all populations from this devastating disease.

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