Biological
Systems

Human physiology organized as a functional network. Six systems. One integrated architecture.
Explore the six biological systems that organize AXION's research compound catalog — from mitochondrial energy to neural function and metabolic regulation.

The human organism does not operate through isolated systems — it operates through overlapping signaling networks that amplify and feed back on each other continuously.

The six biological systems in the Axion portfolio are not arbitrary categories. They are functional regions of an integrated biological architecture:

  • the Mitochondrial Energy System defines the ceiling of available biological capacity;
  • the GH Axis and Metabolic Regulation Systems amplify and regulate that capacity;
  • the Neural & Cognitive System coordinates central homeostasis;
  • the Reproductive & Sexual Health System connects to this network through the hypothalamus and metabolic state signals;
  • and the Regenerative System operates as an interface across all others.

Researching one system without considering its position in the network is studying a node without the graph.

Compound Catalog Six systems.
One framework.

Human biology operates through interconnected systems.
The AXION catalog is organized around them.

Regenerative System ·
5 compounds

Investigated as a tissue-repair signaling system. The literature explores angiogenesis, extracellular matrix remodeling, mitochondrial protection against oxidative stress, and regeneration of soft tissue, tendons, and mucosal surfaces. BPC-157 and TB-500 are studied in preclinical models of musculoskeletal regeneration and neuroprotection; GHK-Cu is investigated for regulation of over 4,000 human genes — including neurotrophic (NGF, BDNF) and anti-inflammatory pathways — with documented functional connections to the Neural & Cognitive System.

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Mithocondrial Energy System ·
5 compounds

Investigated as a mitochondrial quality-control system: biogenesis, mitophagy, ATP production via the respiratory chain, and regulation of intracellular oxidative stress. MOTS-c and SS-31 are studied as modulators of mitochondrial function with effects investigated in insulin sensitivity and adipose metabolism — positioning this system as upstream of the Metabolic Regulation System. NAD+ is researched for both its mitochondrial role and its neuronal signaling mechanisms via sirtuins, generating intersection with the Neural & Cognitive System.

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Metabolic Regulation System ·
5 compounds

Investigated as a tissue-repair signaling system. The literature explores angiogenesis, extracellular matrix remodeling, mitochondrial protection against oxidative stress, and regeneration of soft tissue, tendons, and mucosal surfaces. BPC-157 and TB-500 are studied in preclinical models of musculoskeletal regeneration and neuroprotection; GHK-Cu is investigated for regulation of over 4,000 human genes — including neurotrophic (NGF, BDNF) and anti-inflammatory pathways — with documented functional connections to the Neural & Cognitive System.

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GH Axis System ·
12 compounds

Investigated as a tissue-repair signaling system. The literature explores angiogenesis, extracellular matrix remodeling, mitochondrial protection against oxidative stress, and regeneration of soft tissue, tendons, and mucosal surfaces. BPC-157 and TB-500 are studied in preclinical models of musculoskeletal regeneration and neuroprotection; GHK-Cu is investigated for regulation of over 4,000 human genes — including neurotrophic (NGF, BDNF) and anti-inflammatory pathways — with documented functional connections to the Neural & Cognitive System.

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Neural & Cognitive System ·
4 compounds

Investigated as a tissue-repair signaling system. The literature explores angiogenesis, extracellular matrix remodeling, mitochondrial protection against oxidative stress, and regeneration of soft tissue, tendons, and mucosal surfaces. BPC-157 and TB-500 are studied in preclinical models of musculoskeletal regeneration and neuroprotection; GHK-Cu is investigated for regulation of over 4,000 human genes — including neurotrophic (NGF, BDNF) and anti-inflammatory pathways — with documented functional connections to the Neural & Cognitive System.

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Reproductive & Sexual Health System ·
4 compounds

Investigated as a tissue-repair signaling system. The literature explores angiogenesis, extracellular matrix remodeling, mitochondrial protection against oxidative stress, and regeneration of soft tissue, tendons, and mucosal surfaces. BPC-157 and TB-500 are studied in preclinical models of musculoskeletal regeneration and neuroprotection; GHK-Cu is investigated for regulation of over 4,000 human genes — including neurotrophic (NGF, BDNF) and anti-inflammatory pathways — with documented functional connections to the Neural & Cognitive System.

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Compounds Access Block

Compounds available on the platform are organized within the context of the biological systems they are associated with. This structure avoids isolated analysis of molecules and allows their role within broader physiological processes to be understood.

The result is a more coherent reading — especially in research contexts where understanding the system is as relevant as the compound itself.

Each compound is accessible through its individual system page. Access to the catalog is structured — not open by default.

BPC-157 Body Protection
Compound
BPC-157 Body Protection
Compound
BPC-157 Body Protection
Compound
BPC-157 Body Protection
Compound
BPC-157 Body Protection
Compound
BPC-157 Body Protection
Compound
BPC-157 Body Protection
Compound
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RUO — Research Use Only | Not for Human or Veterinary Use

All compounds listed in this system are classified as Research Use Only (RUO). They are not approved for therapeutic, diagnostic, or clinical use in humans or animals. AXION does not make therapeutic claims of any kind. Access to compounds is available through AXION's structured access model.