Company: TELO
Filing Date: 2025-02-14
Form Type: S-3
Source: 0001493152-25-006943
Chunk: 6

Company: Telomir Pharmaceuticals, Inc.
Filing Date: 2025-02-14
Form: S-3
Chunk 6
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 to increased redox stress, a process which ultimately excessive weakens immune defenses, increases inflammation, and enables enhanced viral replication. By reversing oxidative stress, Telomir-1 may help strengthen immune resilience and reduce disease severity, offering broad therapeutic potential across both age-related and infectious diseases.

Telomeres are repetitive DNA sequences at the end of chromosomes that protect the chromosomes from becoming frayed or tangled. Each time a cell divides, the telomeres become slightly shorter, and eventually they become so short that the cell can no longer divide, with the result being that the cell dies. Effectively, telomeres protect the ends of our chromosomes by forming a cap, much like the plastic tip on shoelaces, thereby allowing the chromosome to be replaced properly during cell division. If demonstrated by future clinical trials and approved by the U.S. Food and Drug Administration, or FDA, we believe Telomir-1 may protect variable cells by elongating and stimulating the telomeres to sustain self-renewal and longevity.

Based on our preclinical studies, we have gathered experimental evidence suggesting that Telomir-1 may act as a regulator of essential metal ions such as iron, zinc, and copper. While these trace elements are critical for various physiological functions, imbalances—whether due to excess or deficiency —can drive oxidative stress, leading to cellular damage, telomere shortening, and accelerated aging. This oxidative burden is also linked to age-related conditions and certain cancers.

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We believe Telomir-1 has the potential to protect cells in situ by mitigating metal overload, particularly of iron and copper, which are known to accelerate oxidative stress and contribute to telomere attrition. By modulating ion levels and reducing oxidative damage, Telomir-1 may help preserve telomere integrity, restore cellular homeostasis, and enhance overall cell resilience, potentially slowing down age-related degeneration. Additionally, by reversing oxidative stress, Telomir-1 may help mitigate the severity of viral infections such as bird flu by strengthening cellular defense mechanisms and improving immune system function, potentially reducing disease progression and severity.

Our focus is on addressing the effects of iron and copper overload while emphasizing the protective role of zinc. Excess iron can cause serious health problems, such as liver fibrosis, liver failure, heart issues, and endocrine dysfunction. It is also linked to type 2 diabetes mellitus (T2DM), as it disrupts insulin secretion, increases insulin resistance, and affects glucose production in the liver. In