# Features of the Liver Microstructural Organization of the Bactrian Camel

**Authors:** Lyalya Musina, Anna Lebedeva, Ludmila Drozdova, Alexey Prusakov, Vladimir Ponamarev

PMC · DOI: 10.3390/ani15192921 · 2025-10-08

## TL;DR

This study reveals unique liver cell structures in Bactrian camels that help them survive in harsh desert environments by storing fat and toxins.

## Contribution

The paper identifies specific ultrastructural adaptations in Bactrian camel hepatocytes related to lipid storage and detoxification.

## Key findings

- Bactrian camel hepatocytes are significantly larger (25–30 µm) compared to other mammals.
- Hepatocytes contain fewer medium-sized lipid droplets (12–15% of cells) and have high densities of Kupffer and Ito cells.
- These adaptations suggest enhanced fat storage and detoxification capabilities for desert survival.

## Abstract

Camels exhibit remarkable physiological adaptations that enable them to survive in harsh, resource-limited environments. A key factor in this resilience is their unique fat metabolism, which has a profound influence on the structure and function of their internal organs. This study specifically investigated the liver of the Bactrian camel. Through detailed electron microscopic analysis of liver tissue samples, researchers discovered several distinctive features. Unlike the livers of many other mammals, the camel liver possesses exceptionally large hepatocytes (25–30 µm). It may be related to the need to store metabolites and water. A further significant finding was the presence of fewer (registered in 12–15% of all hepatocytes), medium-sized (0.5–2 µm) lipid droplets in the hepatocytes, compared to the other species. Large numbers (for Kupffer cells, 15–20 cells per 10,000 µm2) and higher activity of the specialized cells (Ito and Kupffer) aimed towards liver protection and immune system activation. In summary, this research demonstrates that the camel liver has evolved specialized structural and cellular adaptations that directly support its survival in extreme conditions.

Camels have developed unique adaptive mechanisms, one of which is the active accumulation of lipids. This metabolic feature has a direct influence on the liver ultrastructure. Its analysis reveals how exactly the hepatocytes have evolved to effectively store fat and neutralize toxins, which is crucial for survival in the desert. Considering the latter, the aim of this research is to establish the features of the microstructural organization of the liver of the Bactrian camel (Camelus bactrianus). This study was conducted using 15 liver tissue fragments from 5 healthy Bacterian camels (3 pieces from each animal) via biopsy. The sections were examined using a JEM-1011 electron microscope at magnifications of 2500–8000. Electron microscopic analysis of hepatocytes revealed a significantly larger hepatocyte diameter (25–30 µm), suggesting an adaptation for metabolites and water storage. Hepatocytes exhibited fewer, medium-sized (0.5–2 µm) lipid droplets, present in only 12–15% of cells. A high density of specialized Kupffer (15–20 cells per 10,000 µm2) and activated Ito cells was observed, indicating enhanced detoxification and immune functions. These specific ultrastructural features provide a model for studying metabolic resistance and inform veterinary diagnostics and husbandry practices for this species.

## Linked entities

- **Species:** Camelus bactrianus (taxon 9837)

## Full-text entities

- **Chemicals:** water (MESH:D014867), lipids (MESH:D008055)
- **Species:** Camelus bactrianus (Bactrian camel, species) [taxon 9837]

## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12523359/full.md

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Source: https://tomesphere.com/paper/PMC12523359