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08/31/2022 20:00

Old drugs hint at new ways to beat chronic pain

Daniel Azar IMBA Communications
IMBA - Institut für Molekulare Biotechnologie der Österreichischen Akademie der Wissenschaften GmbH

    Pain is an important alarm system that alerts us to tissue damage, but is expected to subside as injuries heal, but many patients experience persistent pain long after recovery. Now, a new study published in Science Translational Medicine points to possible new treatments for chronic pain with a surprising link to lung cancer. The work was spearheaded by an international team of researchers at IMBA – Institute of Molecular Biotechnology of the Austrian Academy of Sciences, Harvard Medical School, and Boston Children’s Hospital. Their findings of the research, conducted in laboratory mouse models, open up therapeutic opportunities to improve chronic pain management.

    Acute pain is an important danger signal. By contrast, chronic pain is based on persistent injury and can even be experienced in the absence of a stimulus, injury, or disease. Despite the hundreds of millions of people affected, chronic pain is among the least well-managed areas of healthcare. To improve how persistent pain is managed and considering the raging opioid crisis, it is paramount to develop novel drugs based on a fundamental understanding of the underlying mechanisms. “We had previously shown that sensory neurons produce a specific metabolite, BH4, which then drives chronic pain, such as neuropathic pain or inflammatory pain,” says project lead and co-corresponding author Shane Cronin, a staff scientist in the Penninger lab at IMBA and a former postdoc in the Woolf lab at Harvard Medical School and F.M. Kirby Neurobiology Center, Boston Children’s Hospital. “The concentrations of BH4 correlated very well with the pain intensity. So, we naturally thought that this was a great pathway to target.”

    To identify drugs that reduce BH4 levels in pain neurons, the researchers performed a “phenotypic screen” of 1000 target-annotated, FDA-approved medications. This approach allowed the scientists to start their search using medications that are currently in use for various indications, and to identify undescribed, off-target analgesic properties. Among the first findings of this hypothesis-driven search, the team was able to link the previously observed analgesic effects of several drugs, including clonidine and capsaicin, to the BH4 pathway.

    “However, our phenotypic screen also allowed us to ‘repurpose’ a surprising drug,” says Cronin. The drug ‘fluphenazine’, an antipsychotic, has been used to treat schizophrenia. “We found that fluphenazine blocks the BH4 pathway in injured nerves. We also demonstrated its effects in chronic pain following nerve injury in vivo.” The researchers also found that the effective analgesic dose of fluphenazine in their experiments in the mouse model is comparable to the low end of the doses safely indicated for schizophrenia in humans.

    In addition, the screen uncovered a novel and unexpected molecular link between the BH4 pathway and EGFR/KRAS signaling, a pathway involved in multiple cancers. Blocking EGFR/KRAS signaling reduced pain sensitivity by decreasing the levels of BH4. The genes of EGFR and KRAS are the two most frequently mutated genes in lung cancer, which prompted the researchers to look at BH4 in lung cancer. Surprisingly, by deleting an important enzyme, GCH1, in the BH4 pathway, the mouse models of KRAS-driven lung cancer developed fewer tumors and survived much longer. Hence, the researchers uncovered a common signaling pathway for chronic pain and lung cancer through EGFR/KRAS and BH4, thus opening up new avenues of treatment for both conditions.

    “Chronic pain is currently subjected to often ineffective palliative treatments. Furthermore, effective painkillers such as opioids can lead, if used inappropriately, to severe addiction. It is therefore critical to find and develop new and repurposed drugs to treat chronic pain,” says co-corresponding author Clifford Woolf, professor of neurology and neurobiology at Harvard Medical School and director of the F.M. Kirby Neurobiology Center at Boston Children’s Hospital.

    One intriguing aspect of the study is the mechanistic link between pain and lung cancer. “The same triggers that drive tumor growth appear to be also involved in setting the path to chronic pain, often experienced by cancer patients. We also know that sensory nerves can drive cancer, which could explain the vicious circuit of cancer and pain,” adds co-corresponding author Josef Penninger, IMBA group leader and founding director, who is currently also the director of the Life Sciences Institute at the University of British Columbia (UBC), Vancouver, Canada. “Understanding these cross-talks is therefore not only critical for cancer treatments but might also help to improve the quality of life for cancer patients towards less pain.”

    About IMBA:

    IMBA – Institute of Molecular Biotechnology – is one of Europe's leading biomedical research institutes. IMBA is located at the Vienna BioCenter, the vibrant cluster of universities, research institutes, and biotech companies in Austria. IMBA is a subsidiary of the Austrian Academy of Sciences, the leading national sponsor of non-university academic research. The stem cell and organoid research at IMBA are being funded by the Austrian Federal Ministry of Science and the City of Vienna.


    Contact for scientific information:

    Contact: Daniel F. Azar, PhD
    Email: daniel.azar@imba.oeaw.ac.at
    Tel. : +43 1 79044-3821


    Original publication:

    Cronin, S. J. F., et al., “Phenotypic drug screen uncovers the metabolic GCH1/BH4 pathway as key regulator of EGFR/KRAS-mediated neuropathic pain and lung cancer”. Science Translational Medicine, 2022. DOI: https://doi.org/10.1126/scitranslmed.abj1531


    More information:

    https://bit.ly/BH4-pain IMBA Website News Release


    Images

    Visualizing pain in mouse sensory neurons (I)
    Visualizing pain in mouse sensory neurons (I)
    © Cronin/IMBA
    This image may only be used with the correct caption and credit.

    Visualizing pain in mouse sensory neurons (II)
    Visualizing pain in mouse sensory neurons (II)
    © Cronin/IMBA
    This image may only be used with the correct caption and credit.


    Criteria of this press release:
    Journalists, all interested persons
    Biology, Medicine
    transregional, national
    Research results, Scientific Publications
    English


     

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