Kavita Panir scite author profile

There is a compelling case that microRNAs, long non-coding RNAs and short inhibitory RNAs have the potential to influence endometriosis development and persistence through modulating inflammation, proliferation, angiogenesis and tissue remodelling. Rapid advances in ncRNA biomarker discovery and therapeutics relevant to endometriosis are emerging. Unravelling the significance of ncRNAs in endometriosis will pave the way for new diagnostic tests and identify new therapeutic targets and treatment approaches that have the potential to improve clinical options for women with this disabling condition.

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Macrophages inhibit and enhance endometriosis depending on their origin

Hogg

Panir

Dhami

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Macrophages are intimately involved in the pathophysiology of endometriosis, a chronic inflammatory disorder characterized by the growth of endometrial-like tissue (lesions) outside the uterus. By combining genetic and pharmacological monocyte and macrophage depletion strategies we determined the ontogeny and function of macrophages in a mouse model of induced endometriosis. We demonstrate that lesion-resident macrophages are derived from eutopic endometrial tissue, infiltrating large peritoneal macrophages (LpM) and monocytes. Furthermore, we found endometriosis to trigger continuous recruitment of monocytes and expansion of CCR2+ LpM. Depletion of eutopic endometrial macrophages results in smaller endometriosis lesions, whereas constitutive inhibition of monocyte recruitment significantly reduces peritoneal macrophage populations and increases the number of lesions. Reprogramming the ontogeny of peritoneal macrophages such that embryo-derived LpM are replaced by monocyte-derived LpM decreases the number of lesions that develop. We propose a putative model whereby endometrial macrophages are “proendometriosis” while newly recruited monocyte-derived macrophages, possibly in LpM form, are “antiendometriosis.” These observations highlight the importance of monocyte-derived macrophages in limiting disease progression.

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Bioluminescent imaging in induced mouse models of endometriosis reveals differences in four model variations

Dorning

Dhami

Panir

et al. 2021

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Our understanding of the etiology and pathophysiology of endometriosis remains limited. Disease modelling in the field is problematic as many versions of induced mouse models of endometriosis exist. We integrated bioluminescent imaging of ‘lesions’ generated using luciferase-expressing donor mice. We compared longitudinal bioluminescence and histology of lesions, sensory behavior of mice with induced endometriosis and the impact of the GnRH antagonist Cetrorelix on lesion regression and sensory behavior. Four models of endometriosis were tested. We found that the nature of the donor uterine material was a key determinant of how chronic the lesions were as well as their cellular composition. The severity of pain-like behavior also varied across models. Whilst Cetrorelix significantly reduced lesion bioluminescence in all models, it had varying impacts on pain-like behavior. Collectively, our results demonstrate key differences in the progression of the ‘disease’ across different mouse models of endometriosis. We propose that validation and testing in multiple models, each of which may be representative of the different subtypes / heterogeneity observed in women should become a standard approach to discovery science in the field of endometriosis.

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Reversal of established bone pathology in MPS VII mice following lentiviral-mediated gene therapy

Derrick-Roberts

Panir

Pyragius

et al. 2016

Molecular Genetics and Metabolism

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Exosome-mediated intracellular signalling impacts the development of endometriosis—new avenues for endometriosis research

Schjenken

Panir

Robertson

et al. 2018

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Kavita Panir

Non-coding RNAs in endometriosis: a narrative review

Macrophages inhibit and enhance endometriosis depending on their origin

Bioluminescent imaging in induced mouse models of endometriosis reveals differences in four model variations

Reversal of established bone pathology in MPS VII mice following lentiviral-mediated gene therapy

Exosome-mediated intracellular signalling impacts the development of endometriosis—new avenues for endometriosis research

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