Abstract

Sphingolipids are the major constituent of the mucus secreted by the cells of epithelial linings of lungs where they maintain the barrier functions and prevent microbial invasion. Sphingolipids are interconvertible, and their primary and secondary metabolites have both structural and functional roles. Out of several sphingolipid metabolites, sphingosine-1 phosphate (S1P) and ceramide are central molecules and decisive for sphingolipid signaling. These are produced by enzymatic activity of sphingosine kinase-1 (SK-1) upon the challenge with either biological or physiological stresses. S1P and ceramide rheostat are important for the progression of various pathologies, which are manifested by inflammatory cascade. S1P is a well-established secondary messenger and associated with various neuronal, metabolic, and inflammatory diseases other than respiratory infections such as Chlamydia pneumoniae, Streptococcus pneumoniae, and Mycobacterium tuberculosis. These pathogens are known to exploit sphingolipid metabolism for their opportunistic survival. Decreased sphingosine kinase activity/S1P content in the lung and peripheral blood of tuberculosis patients clearly indicated a dysregulation of sphingolipid metabolism during infection and suggest that sphingolipid metabolism is important for management of infection by the host. Our previous study has demonstrated that gain of SK-1 activity is important for the maturation of phagolysosomal compartment, innate activation of macrophages, and subsequent control of mycobacterial replication/growth in macrophages. Furthermore, S1P-mediated amelioration of lung pathology and disease severity in TB patients is believed to be mediated by the selective activation or rearrangement of various S1P receptors (S1PR) particularly S1PR2, which has been effective in controlling respiratory fungal pathogens. Therefore, such specificity of S1P–S1PR would be paramount for triggering inflammatory events, subsequent activation, and fostering bactericidal potential in macrophages for the control of TB. In this review, we have discussed and emphasized that sphingolipids may represent effective novel, yet dual specific drug targets for controlling pulmonary infections.

Highlights

  • Lalita Sharma and Hridayesh Prakash*Laboratory of Translational Medicine, School of Life Sciences, University of Hyderabad, Hyderabad, Telengana, India

  • Sphingolipids are crucial bioactive molecules and involved in several fundamental and pathophysiological processes

  • Ceramide has been the major cause for inflammation and cell death in lungs

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Summary

Lalita Sharma and Hridayesh Prakash*

Laboratory of Translational Medicine, School of Life Sciences, University of Hyderabad, Hyderabad, Telengana, India. S1P is a well-established secondary messenger and associated with various neuronal, metabolic, and inflammatory diseases other than respiratory infections such as Chlamydia pneumoniae, Streptococcus pneumoniae, and Mycobacterium tuberculosis These pathogens are known to exploit sphingolipid metabolism for their opportunistic survival. S1P-mediated amelioration of lung pathology and disease severity in TB patients is believed to be mediated by the selective activation or rearrangement of various S1P receptors (S1PR) S1PR2, which has been effective in controlling respiratory fungal pathogens. Such specificity of S1P– S1PR would be paramount for triggering inflammatory events, subsequent activation, and fostering bactericidal potential in macrophages for the control of TB.

INTRODUCTION
SPHINGOLIPIDS IN RESPIRATORY TRACT INFECTIONS
ROLE OF SPHINGOLIPIDS IN FUNGAL PATHOGENESIS
SPHINGOLIPIDS IN MYCOBACTERIAL DISEASE
CLINICAL PERSPECTIVES
CONCLUSION AND FUTURE PROSPECTIVE

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