Endocrine dysfunction after total body irradiation and bone marrow transplantation

The present report describes our data regarding changes of endocrine parameters after total body irradiation (TBI) and bone marrow transplantation (BMT). Endocrine glands are usually resistant to irradiation under morphological aspects. But new methods of determination and sensitive tests were developed in the last few years. Now it is possible to detect already small functional changes. Endocrine studies in the course of the disease were followed serially at 16 patients with TBI and BMT. Pretransplant conditioning consisted of single-dose irradiation combined with a high-dose, short-term chemotherapy. Reactions of the endocrine system showed a defined temporary order. Changes of ACTH and cortisol were in the beginning. The pituitary-adrenal cortex system responds in a different way. The pituitary-thyroid system develop a short-term "low-T3-syndrome" reflecting the extreme stress of the organism. At the same time we obtained an increase of thyroxine. Testosterone and luteotropic hormone, the sexual steroids showed levels representing a primary gonadal insufficiency. The studies in the posttransplant period yielded a return to the normal range at most of the hormonal levels with the exception of the sexual steroids. Sterility is one of the late effects of TBI. A tendency towards hypothyroidism could be noticed in some cases being only subclinical forms. Reasons and possible therapy are discussed.     

Booster irradiation to the spleen following total body irradiation. A new immunosuppressive approach for allogeneic bone marrow transplantation

Graft rejection presents a major obstacle for transplantation of T cell-depleted bone marrow in HLA-mismatched patients. In a primate model, after conditioning exactly as for leukemia patients, it was shown that over 99% of the residual host clonable T cells are concentrated in the spleen on day 5 after completion of cytoreduction. We have now corroborated these findings in a mouse model. After 9-Gy total body irradiation (TBI), the total number of Thy-1.2+ cells in the spleen reaches a peak between days 3 and 4 after TBI. The T cell population is composed of both L3T4 (helper) and Lyt-2 (suppressor) T cells, the former being the major subpopulation. Specific booster irradiation to the spleen (5 Gy twice) on days 2 and 4 after TBI greatly enhances production of donor-type chimera after transplantation of T cell-depleted allogeneic bone marrow. Similar enhancement can be achieved by splenectomy on day 3 or 4 after TBI but not if splenectomy is performed 1 day before TBI or 1 day after TBI, strengthening the hypothesis that, after lethal TBI in mice, the remaining host T cells migrate from the periphery to the spleen. These results suggest that a delayed booster irradiation to the spleen may be beneficial as an additional immunosuppressive agent in the conditioning of leukemia patients, in order to reduce the incidence of bone marrow allograft rejection.     

Gender differences between hypocretin/orexin knockout and wild type mice: age,body weight,body composition,metabolic markers,leptin and insulin resistance

Female hypocretin knockout (Hcrt KO) mice have increased body weight despite decreased food intake compared to wild type (WT) mice. In order to understand the nature of the increased body weight, we carried out a detailed study of Hcrt KO and WT, male, and female mice. Female KO mice showed consistently higher body weight than WT mice, from 4 to 20 months (20–60%). Fat, muscle, and free fluid levels were all significantly higher in adult (7–9 months) as well as old (18–20 months) female KO mice compared to age‐matched WT mice. Old male KO mice showed significantly higher fat content (150%) compared to age‐matched WT mice, but no significant change in body weight. Respiratory quotient (?19%) and metabolic rates (?14%) were significantly lower in KO mice compared to WT mice, regardless of gender or age. Female KO mice had significantly higher serum leptin levels (191%) than WT mice at 18–20 months, but no difference between male mice were observed. Conversely, insulin resistance was significantly higher in both male (73%) and female (93%) KO mice compared to age‐ and sex‐matched WT mice. We conclude that absence of the Hcrt peptide has gender‐specific effects. In contrast, Hcrt‐ataxin mice and human narcoleptics, with loss of the whole Hcrt cell, show weight gain in both sexes.

     

Differences in trabecular bone of leptin-deficient ob/ob mice in response to biomechanical loading

Objective: It is known that bone mineral density (BMD) and the strength of bone is predicted by body mass. Fat mass is a significant predictor of bone mineral density which correlates with body weight. This suggests that body fat regulates bone metabolism first by means of hormonal factors and second that the effects of muscle and loading are signaling factors in mechanotransduction. Leptin, a peptide hormone produced predominantly by white fat cells, is one of these hormonal factors. The aim of this study was to investigate and measure by micro-CT the different effects of weight-bearing on trabecular bone formation in mice without the stimulation of leptin.     

Linomide administration following bone marrow transplantation in mice

The effect of linomide, an immunomodulatory drug, on natural killer (NK) cells and T cell-dependent immune responses following syngeneic or allogeneic bone marrow transplantation (BMT) was investigated in BALB/c mice inoculated with B-cell leukemia (BCL1). Linomide given in the drinking water had no impact on graft survival or graft versus leukemia (GVL) effects. Although linomide regulates anti-self reactivity in mice with experimental and spontaneous autoimmune disorders, the anti-tumor effects induced by allogeneic donor lymphocytes were not affected. This indicates that different mechanisms regulate anti-self and anti-leukemia effects. Alternatively, linomide might affect the homing of self-reactive lymphocytes to specific target organs in autoimmune disorders, although the homing process may not be relevant to the control of leukemia by alloreactive lymphocytes.     

Propranolol attenuates calorie restriction- and high calorie diet-induced bone marrow adiposity

We investigated the effects of β-adrenergic activation on bone marrow adiposity and on adipogenic differentiation of bone marrow mesenchymal stem cells (BMSCs). C57BL/6 mice were subjected to a control (CON), high calorie (HIGH) or low calorie (LOW) diet for 12 weeks. In each group, mice were treated with vehicle (VEH) or propranolol. The number of adipocytes per area bone marrow was increased in LOWVEH and HIGHVEH mice compared with CONVEH mice, which was attenuated by propranolol. Isoproterenol increased lipid droplet accumulation and adipogenic marker gene expression in 3T3-L1 preadipocytes and mouse BMSCs, which were blocked by propranolol. Conditioned medium obtained from MC3T3-E1 osteoblasts suppressed adipogenic differentiation of 3T3-L1 cells, which was significantly attenuated by treatment of MC3T3-E1 cells with isoproterenol. These data suggest that β-adrenergic activation enhances bone marrow adipogenesis via direct stimulation of BMSCs adipogenesis and indirect inhibition of osteoblast anti-adipogenic potential. [BMB Reports 2014; 47(10): 587-592]     

Combination of conjugated linoleic acid with fish oil prevents age-associated bone marrow adiposity in C57Bl/6J mice

The inverse relationship between fat in bone marrow and bone mass in the skeleton of aging subjects is well known. However, there is no precise therapy for the treatment of bone marrow adiposity. We investigated the ability of conjugated linoleic acid (CLA) and fish oil (FO), alone or in combination, to modulate bone loss using 12 months old C57Bl/6J mice fed 10% corn oil diet as control or supplemented with 0.5% CLA or 5% FO or 0.5% CLA+5% FO for 6 months. We found, CLA-fed mice exhibited reduced body weight, body fat mass (BFM) and enhanced hind leg lean mass (HLLM) and bone mineral density (BMD) in different regions measured by dual energy x-ray absorptiometry (DXA); however, associated with fatty liver and increased insulin resistance; whereas, FO fed mice exhibited enhanced BMD, improved insulin sensitivity, with no changes in BFM and HLLM. Interestingly, CLA+FO fed mice exhibited reduced body weight, BFM, peroxisome proliferator-activated receptor gamma and cathepsin K expression in bone marrow with enhanced BMD and HLLM. Moreover, CLA+FO supplementation reduced liver hypertrophy and improved insulin sensitivity with remarkable attenuation of bone marrow adiposity, inflammation and oxidative stress in aging mice. Therefore, CLA with FO combination might be a novel dietary supplement to reduce fat mass and improve BMD.     

Pathways analysis of differential gene expression induced by engrafting doses of total body irradiation for allogeneic bone marrow transplantation in mice

A major challenge in allogeneic bone marrow (BM) transplantation is overcoming engraftment resistance to avoid the clinical problem of graft rejection. Identifying gene pathways that regulate BM engraftment may reveal molecular targets for overcoming engraftment barriers. Previously, we developed a mouse model of BM transplantation that utilizes recipient conditioning with non-myeloablative total body irradiation (TBI). We defined TBI doses that lead to graft rejection, that conversely are permissive for engraftment, and mouse strain variation with regards to the permissive TBI dose. We now report gene expression analysis, using Agilent Mouse 8x60K microarrays, in spleens of mice conditioned with varied TBI doses for correlation to the expected engraftment phenotype. The spleens of mice given engrafting doses of TBI, compared with non-engrafting TBI doses, demonstrated substantially broader gene expression changes, significant at the multiple testing-corrected P <0.05 level and with fold change ≥2. Functional analysis revealed significant enrichment for a down-regulated canonical pathway involving B-cell development. Genes enriched in this pathway suggest that suppressing donor antigen processing and presentation may be pivotal effects conferred by TBI to enable engraftment. Regardless of TBI dose and recipient mouse strain, pervasive genomic changes related to inflammation was observed and reflected by significant enrichment for canonical pathways and association with upstream regulators. These gene expression changes suggest that macrophage and complement pathways may be targeted to overcome engraftment barriers. These exploratory results highlight gene pathways that may be important in mediating BM engraftment resistance.     

Interleukin 2 regulation following semi-allogeneic bone marrow transplantation in mice

Success of allogeneic and autologous bone marrow transplantation (BMT) is hampered by susceptibility to infection during the first two post-treatment years. Further, in treating malignant diseases, impaired anti-host reactivity for donor cells may contribute to a high rate of relapse. Both complications are a consequence of immune deficiency involving B and T lymphocytes. The present study evaluates several key parameters of the immunologic reconstitution mechanism in mice subjected to myeloablative total body irradiation following semi-allogeneic (parental) BMT. This resulted in a gradual reduction of splenic CD3, CD4 and CD8 cells until day 45 post-BMT. Concomitantly, there was an increase in monocytes and CD4⁺/CD8⁺ (double positive) cells, accompanied by a persistent elevation in the percentage of B lymphocytes. The total thymic and splenic T cell populations were reduced until day +30. The cellular reduction correlated with the poor proliferative response of the thymic and splenic cells. A decrease occurred in IL-2 mRNA expression in thymic cells during days 15–20 post-transplant, corresponding with the low level of IL-2 secretion in the spleen and thymus of the transplanted mice. In conclusion, following semi-allogeneic BMT, there was an overall immune down-regulation in the cells, gene and protein levels. Reduced immunological responsiveness following BMT reinforces the need for improving the immune dysfunction by immunotherapy post-BMT.     

Acute and late effects in the course of and after total body irradiation with following bone marrow transplantation in patients with different forms of leukaemia

The acute reaction in the course of a total body irradiation (TBI) appears in an organ-specific damage of the stem cells. Moreover, there are unspecified central-nervous stress reactions. Clinical reactions are obtained by the study and symptomatic therapy is proposed. 90 patients with different forms of leukaemia were observed. We documented the course in a specific "protocol system". Reactions like an increase of body temperature, changes of pulse and blood pressure were registered. The occurrence of gastro-intestinal reactions is a typical symptom of the acute radiation syndrome e.g. vomiting and diarrhoea are demonstrated in dependence of the applicated dose of irradiation. Further symptoms of TBI appeared in the later period. Mucositis, parotitis, a decreased function of the salivary glands and diarrhoea as well as vomiting are characterized by different intensity and temporary termination. A difference between allogeneic and autologous transplantation is caused by a medicamental additional treatment. During the late period these symptoms will disappear completely. Moreover, after TBI and BMT late effects are a cataract and some changes in the hormonal system demanding a specific correction or substitution respectively.     

Fundamentals, trends and our experiences with total body irradiation (TBI) before bone marrow transplantation (BMT)

At the end of the sixties and to beginning of the seventies years the total body irradiation (TBI) was introduced in the concept of bone marrow transplantation (BMT). The aim is the destruction of leukaemic or normal stem cells surviving the chemotherapy or the overcoming of the immunological defense. From March 1980 to January 1987 we have treated 84 patients with single exposure of 8.5 to 10.5 Gy midline dose for body and lung in cases of leukaemia and of 6 to 7 Gy for patients with aplastic anaemia. We used a dose rate of about 5.5 cGy/min delivered by a linear accelerator. The results were comparable with other centres but a further indicator for the effectiveness of a irradiation technique is also the idiopathic interstitial pneumonitis (IIP). Our incidence of IIP was 10.7 per cent and the mortality was 2.4 per cent. Additional we have had 8.3 per cent interstitial pneumonitis (IP) caused by an infection. All patients with a combination of IP and GVHD had a fatal prognosis. In present time a tendency is to see to fractionation techniques in total body irradiation for decreasing of the pneumonitis rate, the reduction of severe acute and delayed side effects, for a better homogenisation of the dose in the whole body and for using of synchronizing effects on the stem cells.     

Immune complex glomerulonephritis following bone marrow transplantation in C3 deficient mice

Background

The role of circulating complement in host defense and immune disease is well established. Although a number of cells and tissues are capable of synthesizing complement components locally, the importance of such local synthesis in immune disease has been difficult to establish.

Methodology/Principal Findings

We used bone marrow transplantation (BMT) between C3 knockout (C3KO) and wild type (WT) mice to construct animals that were discordant for systemic (hepatic) and local (monocytic) C3 synthetic capacity. An immune complex glomerulonephritis (GN) was then induced using intraperitoneal injections of horse spleen apoferritin (HSA) with a lipopolysaccharide (LPS) adjuvant. All HSA/LPS animals developed a proliferative GN with glomerular infiltration by monocytes. By sensitive ELISA, monocyte C3 synthesis could be detected in C3KO animals transplanted with WT bone marrow cells. Despite this, there were no significant differences among groups of mice in measures of clinical (proteinuria, renal function) or histologic (glomerular cellularity, crescents) disease severity.

Conclusions/Significance

In this model of GN, local synthesis of C3 by infiltrating cells does not appear to be of pathologic importance.     

Late effects of cyclophosphamide and total body irradiation as a conditioning regimen for bone marrow transplantation in rats (a preliminary report)

The longterm survival and occurrence of neoplastic and nonneoplastic lesions following total body irradiation (TBI), 8.5 Gy, with or without additional cyclophosphamide (Cy; 100 mg kg-1 i.p.) treatment as a conditioning regimen for bone marrow transplantation (BMT) were studied in male BN/BiRij rats. The two groups of rats that were treated with Cy (Cy and Cy + TBI) that survived beyond 100 days after treatment, had a severely decreased median (post treatment) survival time (Cy + TBI: 14.5 months and Cy: 14.1 months). Survival time in the TBI group was moderately decreased (18.5 months) as compared with the untreated controls (27.2 months). All treatment modalities were carcinogenic according to the raw data. After Cy-treatment a high incidence of, frequently multiple, malignant nerve-sheath tumours (Cy: 66 per cent, Cy + TBI: 31 per cent, controls: 2 per cent) was observed. TBI induced an increased occurrence of a great variety of tumours, especially mesenchymal tumours. This effect was more pronounced in animals receiving TBI alone as compared to animals receiving the combined treatment of Cy + TBI; an effect that most likely resulted from the longer median survival after TBI. The multi-target effect of TBI was also reflected in the occurrence of nonneoplastic effects in a variety of tissues, including high incidences of biliary cysts in the liver and severe testicular atrophy. The most important Cy-induced nonneoplastic lesion was incisor dysplasia, which resulted in feeding problems that could only be partly overcome by administering powdered food. Early mortality in the Cy-treated groups was associated with emaciation and generalized organ atrophy. A more definitive estimate of the late effects of supralethal chemoradiotherapy as part of a treatment of malignant disease has to await the results of various conditioning regimens for BMT in rats employing the acute BN myelocytic leukaemia (BNML) as a rat model for human acute myelocytic leukaemia (AML).     

Influence of dietary saturated fat content on adiposity,macrophage behavior,inflammation, and metabolism: composition matters

We examined the effects of three high-fat diets (HFD), differing in the percentage of total calories from saturated fat (SF) (6%, 12%, and 24%) but identical in total fat (40%), on body composition, macrophage behavior, inflammation, and metabolic dysfunction in mice. Diets were administered for 16 weeks. Body composition and metabolism [glucose, insulin, triglycerides, LDL-cholesterol (LDL-C), HDL-cholesterol (HDL-C), total cholesterol (TC)] were examined monthly. Adipose tissue (AT) expression of marker genes for M1 and M2 macrophages and inflammatory mediators [Toll-like receptor (TLR)-2, TLR-4, MCP-1, tumor necrosis factor (TNF)-α, interleukin (IL)-6, IL-10, suppressor of cytokine signaling (SOCS)1, IFN-γ] was measured along with activation of nuclear factor kappa-B (NFκB), c-Jun N-terminal kinase (JNK), and p38- mitogen-activated protein kinase (MAPK). AT macrophage infiltration was examined using immunohistochemistry. Circulating MCP-1, IL-6, adiponectin, and leptin were also measured. SF content, independent of total fat, can profoundly affect adiposity, macrophage behavior, inflammation, and metabolic dysfunction. In general, the 12%-SF diet, most closely mimicking the standard American diet, led to the greatest adiposity, macrophage infiltration, and insulin resistance (IR), whereas the 6%-SF and 24%-SF diets produced lower levels of these variables, with the 24%-SF diet resulting in the least degree of IR and the highest TC/HDL-C ratio. Macrophage behavior, inflammation, and IR following HFD are heavily influenced by dietary SF content; however, these responses are not necessarily proportional to the SF percentage.