Brazilian Supercentenarian Genetics Study Probes Secrets to Living Past 107 Despite Adversities

Brazilian researchers are unlocking the mysteries of extreme human longevity through a pioneering genetics study on supercentenarians—individuals who live to 110 years or older. Led by experts at the University of São Paulo (USP), this ongoing investigation examines why some people thrive well past 107 despite facing socioeconomic hardships, limited healthcare access, and environmental challenges common in parts of Brazil. The work highlights how genetic diversity, robust immune responses, and familial patterns contribute to such remarkable lifespans.6263

This research not only advances global understanding of aging but also positions Brazilian higher education institutions like USP and the Universidade Federal de Minas Gerais (UFMG) as leaders in genomics. For academics and students interested in genetics and longevity, opportunities abound in research jobs at these forefront universities.

Brazil Emerges as a Hotspot for Supercentenarian Research

Brazil stands out globally for its disproportionate number of supercentenarians. The country boasts three of the ten oldest verified men worldwide, including a 113-year-old still living as of early 2026. This is striking given Brazil's challenges, such as uneven healthcare distribution and historical adversities.39

Unlike regions with advanced medical systems, many Brazilian supercentenarians hail from underserved areas, suggesting innate biological resilience over reliance on interventions. This context makes the nation a natural laboratory for studying longevity independent of modern medicine.49

The USP-Led Study: Methodology and Cohort Overview

The DNA Longevo project, spearheaded by USP's Human Genome and Stem Cell Research Center (HUG-CELL), has assembled a cohort of over 160 centenarians, including 20 validated supercentenarians from diverse regions. Participants undergo clinical interviews, blood draws, and whole-genome sequencing annually.62

• Longitudinal tracking of health markers and biological samples.
• Multi-omics analyses, including genomics, transcriptomics, and proteomics.
• Collaboration with UFMG for immunological profiling.

This rigorous approach addresses gaps in prior studies dominated by homogeneous populations.61

Key Researchers Driving Innovation at Brazilian Universities

Professor Mayana Zatz, a renowned geneticist at USP, leads the effort alongside first author Mateus Vidigal de Castro. Their team collaborates with Prof. Ana Maria Caetano de Faria at UFMG. Zatz emphasizes, "International consortia should include diverse populations like Brazil's to uncover unique protective variants."63

These USP and UFMG faculty exemplify Brazil's growing prowess in higher education research. Aspiring scientists can explore faculty positions or research assistant jobs in genetics at such institutions.

Personal Stories: Supercentenarians Defying the Odds

Meet standout participants: A 110-year-old woman whose nieces are 100, 104, and 106—the latter a swimming champion starting at 100. A 107-year-old man still employed. Sister Inah lived to 116, and three supercentenarians survived pre-vaccine COVID-19 with strong antibody responses.63

These individuals, often from humble backgrounds, remained lucid and independent, underscoring resilience amid adversities like poverty and disease outbreaks.

Genetic Diversity: The Power of Admixture

Brazil's history—Portuguese colonization, African enslavement, Indigenous roots, and Japanese/ European immigration—yields unparalleled genetic admixture. Sequencing over 1,000 Brazilians aged 60+ revealed 2 million novel variants, plus 8 million total undescribed ones, including HLA alleles absent globally.62

Supercentenarians show ancestry proportions (European, African, Indigenous) linked to longevity, per USP admixture analysis. This diversity likely converges protective alleles, invisible in uniform groups.61

• Over 36,000 potentially deleterious variants identified.
• Mobile element insertions >2,000 in elderly.
• Potential for polygenic resilience.

Immune and Cellular Resilience Mechanisms

Peripheral blood cells in supercentenarians maintain youthful proteasomal activity and upregulated autophagy, clearing misfolded proteins efficiently. Single-cell analysis reveals expanded cytotoxic CD4+ T cells mimicking CD8+ functions—rare in youth.62

This 'adaptive immunosenescence' preserves function. COVID survivors exhibited robust innate responses. Metabolic stability further supports healthspan extension.

Familial Patterns: Inherited Longevity

Clustering in families—siblings of centenarians 5-17x more likely to reach 100—points to polygenic inheritance. The swimmer family exemplifies this. Studies disentangle genetics from epigenetics/environment.63

"Familial clusters offer a window into resilience," notes de Castro.

Thriving Despite Adversities

Participants endured limited healthcare, economic hardship, and pandemics without faltering. This resilience—beyond genetics—includes lifestyle factors like no caloric restriction, contrasting some global cases. Brazil's context tests 'pure' biological durability.39

Global Implications and Precision Medicine

Findings challenge aging as inevitable decline, suggesting interventions mimicking supercentenarian traits (e.g., immune modulation). For admixed populations worldwide, Brazil fills genomic gaps, advancing equitable precision medicine.62

Photo by engin akyurt on Unsplash

Future Outlook: Expanding Brazilian Higher Ed Research

Ongoing: Functional assays from cell lines, deeper multi-omics. Recruitment continues (dnalongevo@usp.br). This boosts Brazil's research ecosystem, creating postdoc and clinical research jobs. Explore career advice for genomics roles or rate professors at USP/UFMG.

In summary, this USP-led Brazilian supercentenarian genetics study illuminates paths to healthier aging. Check higher ed jobs in Brazil for involvement, university jobs, or Brazil-specific opportunities.