Unraveling Human-Octopus Intelligence: An Ancient Link

Article by: Arya Bandyopadhyay
Dated: 27th April, 2025

This deep evolutionary connection provides new insight into why octopuses, despite being invertebrates, display advanced and sophisticated behaviors typically associated with vertebrates.

Built by evolution. Split by fate. Connected by intelligence.
Credits: Visual fusion crafted with AI | Honoring the mind-bending legacy of cephalopods and humankind.

Ancient Evolutionary Link: New research suggests that octopuses and humans may share an ancient evolutionary connection, offering an explanation for the remarkable intelligence of cephalopods.

Common Ancestor: Both species could trace their cognitive complexity back to a common ancestor that lived around 518 million years ago.

The Role of MicroRNAs (miRNAs):
MicroRNAs (miRNAs) are small regulatory molecules that control how genes are expressed.
A study led by Nikolaus Rajewsky at the Max Delbrück Centre for Molecular Medicine revealed that octopuses and other soft-bodied cephalopods experienced a significant increase in their miRNA gene repertoire.

Impact on Brain Evolution:
This "massive expansion" of miRNA genes is thought to be a key driver in the development of the octopus’s advanced brain.
It allowed for the creation of more diverse types of neurons, contributing to their sophisticated cognitive abilities.

Convergent Evolution of Complex Brains:
The brains of octopuses and humans appear to have developed complexity in remarkably similar ways, despite following separate evolutionary paths.
This is an example of convergent evolution, where different organisms independently evolve similar traits.

Shared Biological Strategy:
The expansion of microRNAs in both octopuses and humans suggests that certain molecular mechanisms might be favored by nature when developing complex brains.

This points to a shared biological strategy for building intelligence across vastly different organisms.

(A) Schematic representation of tissues sampled in the study. Neuronal and non-neuronal tissues are 212 colored in blue and yellow, respectively. Inset (B): brain and surrounding structures. (C) Main 213 sequencing methods and computational analyses used in this study.

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Evolutionary Insights

1. Ancient Shared Ancestry: Humans and octopuses may share a common ancestor from around 518 million years ago, explaining the remarkable intelligence of cephalopods.

2. Convergent Evolution: Despite separate evolutionary paths, the brains of octopuses and humans have evolved in strikingly similar ways, highlighting convergent evolution and shared molecular mechanisms in brain complexity.

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MicroRNA Expansion in Cephalopods

3. MicroRNA (miRNA) Role: MiRNAs, small molecules that regulate gene expression, play a critical role in cephalopod brain development, driving cognitive complexity.

4. Study Findings: Research by Nikolaus Rajewsky showed that octopuses underwent a significant expansion of miRNA genes, particularly in neural tissues, supporting brain function and development.

5. Comparative Analysis: The miRNA expansion in cephalopods mirrors similar developments in vertebrates, revealing a shared evolutionary strategy for brain complexity.

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Implications for Brain Complexity

6. Neural Diversity: The expansion of miRNA genes likely contributes to the creation of diverse neuron types, enhancing the octopus’s advanced cognitive abilities.

7. Independent Evolution: The similar brain development in cephalopods and vertebrates suggests that intelligence can evolve through parallel molecular mechanisms in different species.

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Broader Implications

8. RNA-Based Mechanisms: The study emphasizes the importance of RNA-based regulatory mechanisms, such as miRNAs, in the evolution of complex traits like intelligence.

9. Future Research Directions: Further research is needed to explore the specific roles of miRNAs in brain development and their comparison across intelligent species.

Rethinking Animal Intelligence

This study challenges the way we’ve always viewed intelligence in animals. Octopuses have always amazed us with their problem-solving skills, adaptability, and curiosity — qualities that now make more sense thanks to the discoveries around their RNA.

By uncovering the role of microRNAs in the development of their brains, scientists are offering a fresh perspective on how intelligence can evolve in completely different creatures.

The similarities between how human and octopus brains develop suggest that intelligence can take on many forms, far beyond what we’ve ever imagined.