Ticks’ Secret Allies: Bacteria's Hidden Hand in Tick Survival

12 August, 2024
Ticks’ Secret Allies: Bacteria's Hidden Hand in Tick Survival

 

A new study at Hebrew University provides insights that could lead to innovative ways to combat ticks. Researchers discovered that certain bacteria living inside ticks are essential for their survival and reproduction. These bacteria produce vital nutrients that ticks cannot obtain from their blood-only diet. This finding is significant because it uncovers a potential vulnerability in ticks that could be exploited. By targeting these beneficial bacteria, we could more effectively control tick populations, potentially reducing tick-borne diseases in humans and animals. Essentially, this research offers a novel approach to fighting ticks by disrupting their internal support system, rather than solely attempting to kill the ticks directly.

A new study led by Prof. Yuval Gottlieb from the Koret School of Veterinary Medicine at The Hebrew University of Jerusalem has unveiled important information about the relationship between the brown dog tick, Rhipicephalus sanguineus, and its Coxiella-like symbiotic bacteria. The research shows that these bacteria help the ticks by providing essential B vitamins and possibly other nutrients like L-proline, which are crucial for the tick's reproduction and health. Ticks, like many animals, rely on bacteria to get nutrients, handle stress, and influence their behavior. These bacteria are crucial for ticks to survive on their blood-only diet.

Ticks are vectors of numerous diseases that pose significant health risks to humans and animals. They can transmit pathogens such as bacteria, viruses, and protozoa, leading to illnesses like Lyme disease, Rocky Mountain spotted fever, and anaplasmosis among others. These diseases can cause severe health issues, including neurological problems, joint pain, and even death if not properly treated. Understanding the biological mechanisms that support tick survival and reproduction is crucial for developing new methods to prevent tick bites and reduce the incidence of tick-borne diseases, ultimately protecting public health. According to the Centers for Disease Control and Prevention (CDC), approximately 50,000 people visit emergency departments annually due to tick bites in the United States alone. This number likely underestimates the total number of tick bites, as many bites do not result in emergency visits and are unreported.

Ticks, as obligatory blood-feeding arthropods, rely on endosymbiotic bacteria to obtain B vitamins, which are deficient in their blood diet. The study explored whether additional metabolites, such as L-proline, are involved in this nutritional symbiosis. Prof. Gottlieb and her team measured amino acid levels and examined the effects of B vitamins and L-proline supplementation on female ticks with suppressed Coxiella-like endosymbionts.

The findings revealed that L-proline levels were higher in the symbiont-hosting organs of unfed ticks and in engorged blood-fed ticks. Moreover, the supplementation of B vitamins significantly increased the hatching rate of ticks with low levels of Coxiella-like endosymbionts, an effect that was further enhanced with the addition of L-proline. These results suggest that Coxiella-like endosymbionts produce L-proline and are essential for the tick's reproductive processes, particularly during periods of high metabolic demand such as egg production and embryonic development.

"This study underscores the importance of nutritional symbionts in the health and reproduction of ticks," said Prof. Yuval Gottlieb. "Our findings can open new possibilities for developing strategies to control tick populations and mitigate tick-borne diseases."

Prof. Gottlieb's research offers potential avenues for controlling tick populations and reducing the impact of tick-borne diseases. By shedding light on the intricate relationship between ticks and their symbionts, this study paves the way for innovative approaches in tick management and disease prevention.

The research paper titled “Endosymbiont-derived metabolites are essential for tick host reproductive fitness” is now available in ASM Journals and can be accessed at https://doi.org/10.1128/msphere.00693-23.

Researchers:

Balasubramanian Cibichakravarthy, Neta Shaked, Einat Kapri, Yuval Gottlieb

Institution:

The Robert H. Smith Faculty of Agriculture, Food and Environment, Koret School of Veterinary Medicine, The Hebrew University of Jerusalem, Rehovot, Israel

Picture | Credit: Authors

The Brown Dog Tick on Pencil

 

Title: Colored Ticks

Description: Group of brown dog ticks artificially marked by colors

 

The Hebrew University of Jerusalem is Israel's premier academic and research institution. Serving over 23,000 students from 80 countries, the University produces nearly 40% of Israel’s civilian scientific research and has received over 11,000 patents. Faculty and alumni of the Hebrew University have won eight Nobel Prizes and a Fields Medal. For more information about the Hebrew University, please visit http://new.huji.ac.il/en