Modulation of Gr1low monocyte subset impacts insulin sensitivity and weight gain upon high-fat diet in female mice.

BACKGROUND/OBJECTIVES: Blood monocytes are expanded during obesity. However, the differential contribution of monocyte subsets in obesity-related metabolic disorders remains unknown. The aim of the study was to define the role of the Gr1low monocyte subset upon high-fat diet (HFD). METHODS: We used transgenic female mouse models allowing the modulation of circulating Gr1low monocyte number (decreased number in CX3CR1-/- mice and increased number in CD11c-hBcl2 mice) and studied obesity upon HFD. RESULTS: We reported here that HFD induced monocytosis in mice, preferentially due to Gr1low monocyte expansion, and was associated with a specific upregulation of CD11c on that subset. Using mice models with altered Gr1low monocyte number, we found a striking correlation between Gr1low monocytes, bodyweight (BW) and insulin resistance (RT) status. Indeed, CX3CR1-/- female mice, with reduced Gr1low monocytes upon HFD, showed increased RT and a pro-inflammatory profile of the adipose tissue (AT) despite a lower BW. Conversely, mice expressing the anti-apoptotic gene hBcl2 in CD11c-expressing cells have increased Gr1low monocytes, higher insulin sensitivity upon HFD and an anti-inflammatory profile of the AT. Finally, increasing Gr1low monocytes in Gr1low-defective CX3CR1-/- mice rescued BW loss in these mice. CONCLUSIONS: By using transgenic female mice and adoptive transfer experiments, we established the evidence for a correlation between Gr1low monocyte subset and weight gain and RT. Hence, this specific Gr1low monocyte subset could be used as a target for acting on AT inflammation and RT.

[Polymorphisms of complement factor genes and age-related macular degeneration in a German population]. / Komplementfaktor-Polymorphismen und altersassoziierte Makuladegeneration in einer Gruppe deutscher Patienten.

BACKGROUND: An association of the Tyr402His variant of the complement factor H (CFH) gene with age-related macular degeneration (AMD) has been shown in several Caucasian populations, while studies for an association with other single nucleotide polymorphisms (SNP) of complement system genes have produced inconsistent results. We examined the distribution of several SNPs of complement system genes (CFH, C 2, C 3, factor B) in patients with exsudative AMD and healthy controls. PATIENTS/MATERIALS AND METHODS: 226 patients with exsudative AMD and 179 controls without AMD were included. Genomic DNA was extracted from saliva samples. RESULTS: A significant association with exsudative AMD was found only for SNP rs1061170 (Y402 H) in the CFH gene. For rs1047286 (P292L) and rs2230199 (R102G) in the C 3 gene, rs547154 (IVS10) and rs9332739 (E318D) in the C 2 gene and rs4151667 (L9 H) in CFB gene, no associations with exsudative AMD were found. CONCLUSIONS: We have replicated an association of the Y 402 H variant with exsudative AMD in our population. Although variants R 102G, IVS10, E 318D and L 9 H have been shown to be associated with AMD in earlier studies, we could not confirm these findings. The results show that AMD has variable association patterns with rare variants in different populations.