Galectins as self/non-self recognition receptors in innate and adaptive immunity: an unresolved paradox

Gerardo R Vasta,Prasun Guha,José A Fernández-Robledo,Mihai Nita-Lazar,Hafiz Ahmed,Surekha Shridhar,Marta Pasek,Aditi Banerjee

doi:10.3389/fimmu.2012.00199

Abstract

Galectins are characterized by their binding affinity for β-galactosides, a unique binding site sequence motif, and wide taxonomic distribution and structural conservation in vertebrates, invertebrates, protista, and fungi. Since their initial description, galectins were considered to bind endogenous (“self”) glycans and mediate developmental processes and cancer. In the past few years, however, numerous studies have described the diverse effects of galectins on cells involved in both innate and adaptive immune responses, and the mechanistic aspects of their regulatory roles in immune homeostasis. More recently, however, evidence has accumulated to suggest that galectins also bind exogenous (“non-self”) glycans on the surface of potentially pathogenic microbes, parasites, and fungi, suggesting that galectins can function as pattern recognition receptors (PRRs) in innate immunity. Thus, a perplexing paradox arises by the fact that galectins also recognize lactosamine-containing glycans on the host cell surface during developmental processes and regulation of immune responses. According to the currently accepted model for non-self recognition, PRRs recognize pathogens via highly conserved microbial surface molecules of wide distribution such as LPS or peptidoglycan (pathogen-associated molecular patterns; PAMPs), which are absent in the host. Hence, this would not apply to galectins, which apparently bind similar self/non-self molecular patterns on host and microbial cells. This paradox underscores first, an oversimplification in the use of the PRR/PAMP terminology. Second, and most importantly, it reveals significant gaps in our knowledge about the diversity of the host galectin repertoire, and the subcellular targeting, localization, and secretion. Furthermore, our knowledge about the structural and biophysical aspects of their interactions with the host and microbial carbohydrate moieties is fragmentary, and warrants further investigation.

Highlights

The functional interplay between lectins and their “self ” or “nonself ” carbohydrate receptors implicated in various aspects of immune responses of both vertebrates and invertebrates have been characterized in considerable detail in recent years (Akira et al, 2001; Liu and Rabinovich, 2005; Ludwig et al, 2006)
By recognizing highly conserved and widely distributed microbial surface glycans (PAMPs or microbe-associated molecular patterns” (MAMPs)) which are essential for the microbe but absent in the host, lectins like the mannose-binding lectin (MBL), a member of the C-type lectin family, fit accurately the definition of pattern recognition receptors (PRRs)
Recent studies clearly indicate that galectins can function as PRRs that target oligosaccharides on the surface of virus, bacteria, protista and helminth pathogens, and parasites

Summary

Introduction

The functional interplay between lectins and their “self ” or “nonself ” carbohydrate receptors implicated in various aspects of immune responses of both vertebrates and invertebrates have been characterized in considerable detail in recent years (Akira et al, 2001; Liu and Rabinovich, 2005; Ludwig et al, 2006). GALECTINS AS PATTERN RECOGNITION RECEPTORS Insight into the multiple roles of galectins in both innate and adaptive immune functions has further expanded recently by discovery of their ability to directly recognize microbial pathogens (Lund and Olafsen, 1999), a property shared with other lectin types, such as C- and F-lectins, ficolins, and pentraxins.

Results

Conclusion