Evolutionary conservation of human ketodeoxynonulosonic acid production is independent of sialoglycan biosynthesis
Kunio Kawanishi, Sudeshna Saha, Sandra Diaz, Michael Vaill, Aniruddha Sasmal, Shoib S. Siddiqui, Biswa Choudhury, Kumar Sharma, Xi Chen, Ian C. Schoenhofen, Chihiro Sato, Ken Kitajima, Hudson H. Freeze, Anja Münster-Kühnel, Ajit Varki
Kunio Kawanishi, Sudeshna Saha, Sandra Diaz, Michael Vaill, Aniruddha Sasmal, Shoib S. Siddiqui, Biswa Choudhury, Kumar Sharma, Xi Chen, Ian C. Schoenhofen, Chihiro Sato, Ken Kitajima, Hudson H. Freeze, Anja Münster-Kühnel, Ajit Varki
View: Text | PDF
Research Article Metabolism Nephrology

Evolutionary conservation of human ketodeoxynonulosonic acid production is independent of sialoglycan biosynthesis

Abstract

Human metabolic incorporation of nonhuman sialic acid (Sia) N-glycolylneuraminic acid into endogenous glycans generates inflammation via preexisting antibodies, which likely contributes to red meat–induced atherosclerosis acceleration. Exploring whether this mechanism affects atherosclerosis in end-stage renal disease (ESRD), we instead found serum accumulation of 2-keto-3-deoxy-d-glycero-d-galacto-2-nonulosonic acid (Kdn), a Sia prominently expressed in cold-blooded vertebrates. In patients with ESRD, levels of the Kdn precursor mannose also increased, but within a normal range. Mannose ingestion by healthy volunteers raised the levels of urinary mannose and Kdn. Kdn production pathways remained conserved in mammals but were diminished by an M42T substitution in a key biosynthetic enzyme, N-acetylneuraminate synthase. Remarkably, reversion to the ancestral methionine then occurred independently in 2 lineages, including humans. However, mammalian glycan databases contain no Kdn-glycans. We hypothesize that the potential toxicity of excess mannose in mammals is partly buffered by conversion to free Kdn. Thus, mammals probably conserve Kdn biosynthesis and modulate it in a lineage-specific manner, not for glycosylation, but to control physiological mannose intermediates and metabolites. However, human cells can be forced to express Kdn-glycans via genetic mutations enhancing Kdn utilization, or by transfection with fish enzymes producing cytidine monophosphate–Kdn (CMP-Kdn). Antibodies against Kdn-glycans occur in pooled human immunoglobulins. Pathological conditions that elevate Kdn levels could therefore result in antibody-mediated inflammatory pathologies.

Authors

Kunio Kawanishi, Sudeshna Saha, Sandra Diaz, Michael Vaill, Aniruddha Sasmal, Shoib S. Siddiqui, Biswa Choudhury, Kumar Sharma, Xi Chen, Ian C. Schoenhofen, Chihiro Sato, Ken Kitajima, Hudson H. Freeze, Anja Münster-Kühnel, Ajit Varki

×

Figure 3

Human mannose ingestion test reveals increased urinary Kdn.

Options: View larger image (or click on image) Download as PowerPoint
Human mannose ingestion test reveals increased urinary Kdn. Mannose (0.2...
Mannose (0.20 g/kg body weight) was used for the human ingestion test (healthy volunteers, n = 5). (A) Time course (0–8 hours after mannose ingestion) for serum and urine mannose levels, which were measured by GC-MS. (B) Urinary Kdn levels were evaluated by HPLC. Data are shown as the mean (SD). *P < 0.05 and **P < 0.01, by 2-way ANOVA.