Effect of aging on autoimmune response to rat male accessory glands: young, but not aged, antigen-presenting cells efficiently induce suppression in aged rats

Accumulation of prelamin A compromises NF-κB-regulated B-lymphopoiesis in a progeria mouse model

BACKGROUND

Alteration in the immune system is one of the most profound aspects of aging. Progressive changes in the number of B lymphocyte progenitors during aging have been reported but the underlying mechanisms are still elusive. A heterozygous G608G mutation in the LMNA gene leads to a deletion of 50 amino acids in lamin A protein, termed progerin, and is the predominant cause of Hutchinson-Gilford progeria syndrome (HGPS). Lack of Zmpste24, a metalloproteinase responsible for prelamin A processing, leads to progeroid features resembling HGPS. Therefore Zmpste24-deficient mice provide an ideal mouse model to study the impact of lamin A and (premature) aging on the aging-related decline of B lymphopoiesis.

RESULTS

Analysis of bone marrow (BM) nucleated cells revealed a decline of early B cell progenitors in Zmpste24 (-/-) mice. BM transplantation in a congenic strain completely rescued the defects in B lymphopoiesis, indicating that the decline in B cell progenitors in Zmpste24 (-/-) mice is attributable to defective BM microenvironments rather than to cell-intrinsic defects. Further investigation revealed downregulation of a set of important early B lymphopoiesis factors in Zmpste24 (-/-) bone marrow stromal cells (BMSCs), such as Vcam-1, SDF-1α, Flt3L and TSLP, and most of them are under transcriptional control of NF-κB signaling. Though TNFα stimulates IκBα degradation and NF-κB nuclear translocation in Zmpste24 (-/-) BMSCs, NF-κB fails to stimulate IκBα re-expression, which mediates a negative feedback loop of NF-κB signaling in wild-type BMSCs.

CONCLUSIONS

Our data demonstrate a cell-extrinsic defect of B cell development in a progeroid mouse model and a critical role for lamin A in the regulation of NF-κB signaling and cytokines that are essential for lymphopoiesis.

Diminished percentage of antigen bearing cells in the lymph nodes of immune aged rats

We have demonstrated previously that during experimental autoimmune prostatitis (EAP), aged rats show a diminished humoral autoimmune response. In the present paper we have studied the transport of the autoantigen from the site of injection toward lymphatic organs in rats of different ages with or without EAP. We used as autoantigen prostatic components (rat accessory glands (RAG)) conjugated with fluorescein isothiocyanate (FITC). Studies of flow cytometry, fluorescent microscopy and confocal microscopy show no differences in the percentage of RAG-FITC positive cells or in the localization of the cells in the popliteal lymph nodes of not-immunized young and aged rats. On the other hand, in 18-month-old rats immunized with either RAG or Ovalbumin there were lower levels of specific IgG antibodies and fewer antigen containing cells in the draining lymph nodes than those of 3- or 12-month-old rats. In all groups fluorescent cells were MHC class II positive and some were IgM positive. Our results demonstrate that in immunized 18-month-old rats there is a diminished percentage of cells bearing the antigen in the draining lymph nodes after antigen injection in the skin, related to the levels of specific antibodies able to form antigen-antibody complexes in the periphery.

Changes in the development of experimental autoimmune prostatitis (EAP) by castration in aged rats

During Experimental Autoimmune Prostatitis (EAP), 12-month-old rats show a higher cellular autoimmune response and lower humoral autoimmune response against prostatic components than 3-month-old rats subjected to the same antigen stimulus. We analyzed if thymus recovery by orchidectomy could affect the development of EAP in 12-month-old rats. Thirty days after gonadectomy, 12-month-old rats showed an increment in the thymic mass and in the thymocytes absolute number, with percentages of the four main cell subpopulations (defined by CD4-CD8 molecules expression) similar to the 3-month-old rats. The DTH response of castrated 12-month-old with EAP were diminished in comparison with sham-castrated 12-month-old rats with EAP, resembling the values observed in 3-month-old rats with EAP. The prostates of castrated 12-month-old rats with EAP did not show inflammatory mononuclear cell infiltration, as did control 3- and 12-month-old rats with EAP. Castration seems to modulate negatively EAP in 12-month-old rats, possibly through the regeneration of thymus after testosterone deprivation.

Age-related alterations in inflammatory response during experimental autoimmune prostatitis

Experimental autoimmune prostatitis (EAP) is an experimental model of autoimmune disease, developed in Wistar rats against prostatic components. The 12-and 18-month-old rats with EAP show a higher cellular autoimmune response and lower humoral autoimmune response compared to 3-month-old rats. The analysis of NO(.) and O(2)(-) production by peritoneal exudate cells (PECs) resulted in a higher NO(.) and O(2)(-) production in EAP rats at all ages, compared to control animals. PECs from 12- and 18-month-old rats produced more NO(.) and less O(2)(-) than PECs from 3-month-old rats. However, lipopolysacharide (LPS) did not stimulate PECs from aged rats for NO(.) production as much as in 3-month-old rats and thus, turning out in a lower index of LPS-stimulation of PECs from aged rats, compared to 3-month-old rats. Furthermore, the mast cells number in prostates of EAP rats, especially the number of degranulated cells, was higher than in control animals, but no significant differences were found between 3- and 12-month-old control rats. In conclusion, these results show that aging affects differentially the inflammation mediators during EAP.

Effect of aging on experimental autoimmune prostatitis: differential kinetics of development

We have studied the influence of aging on the kinetics of autoimmune response in Experimental Autoimmune Prostatis (EAP). EAP was induced in 3- and 12-month-old Wistar rats by i.d. immunization with a saline extract of rat male sex accessory glands (RAG), chemically modified, and emulsioned in CFA. After immunization, 12-month-old rats developed a faster and stronger specific DTH response against RAG and mononuclear infiltration in the prostate. The levels of total IgM and IgG against RAG were lower in 12-month-old rats than in 3-month-old rats, with a prevalence of IgG2a, IgG2b, and IgG2c subclasses in both ages. Immunization stimulated slightly the appearance of specific IgG1 to RAG only in 3-month-old rats but in 12-month-old rats there was no specific IgG1 to RAG. On the other hand, normal 12-month-old rats showed higher levels of some natural antibodies and their thymocytes and peripheral lymphocytes had a diminished proliferative capacity compared to 3-month-old rats. These data demonstrated that 12-month-old rats show parameters of an aged immune system and present an exacerbated autoimmune prostatitis compared with 3-month-old rats.

Age-associated changes in lymphoid and antigen-presenting cell functions in mice immunized with Trypanosoma cruzi antigens

The purpose of these studies was to analyze the role of different immune cell populations in the immune response against Trypanosoma cruzi antigens in aged mice. Mice of different ages (3 and 12 months old) were immunized i.d. with S-105 plus Bordetella pertussis as adjuvant and we compared the activities of the lymph node cells taken from 3- and 12-month-old donor animals to transfer DTH or antibody production to 3-month-old recipients. This study revealed that adherent and non-adherent immune lymph node cells of aged donor animals did not transfer response against the foreign antigen (S-105) whereas 3-month-old non-adherent lymph node cells transferred a DTH response as well as helped the specific antibody production. When total lymph node cells from 3- and 12-month-old mice were mixed, we observed an inhibition of S-105 transferred response indicating a suppressive effect of aged cells on the 3-month-old mice cells. Furthermore, we analyzed the participation of antigen-presenting cells (APC) in the immune response changes related to the previously described aged mice. Peritoneal cavities cells (PC), pulsed in vivo with S-105, obtained from 3- and 12-month-old mice were transferred to normal recipients and a DTH response to S-105 was studied. We observed that the DTH response was lower in the recipients of aged PC with respect to recipients of young PC. The results suggest that APC from aged mice are involved in controlling the cellular immune response to S-105. Age-related changes in immune T cell and APC are discussed in the context of these observations.