Studies on antigen-induced arthritis in mice. II. Immunologic correlates of arthritis susceptibility in mice.

Antigen-induced arthritis was developed in mice as a model of human rheumatoid arthritis by using methylated bovine serum albumin (mBSA) as antigen. It was found that most strains were susceptible, whereas CBA mice were resistant. We therefore investigated the humoral and cell-mediated immune responses to mBSA in resistant mice (CBA) and susceptible mice (exemplified by C57BL) to determine whether these were associated with susceptibility to arthritis. The resistant strain (CBA) differed from the suceptible strains in the following respects. First, there was a lower humoral immune response to mBSA as measured by passive hemagglutination, but this could be overcome by a larger immunogenic dose. Secondly, there were differences in response to low doses of DNP-mBSA after mBSA carrier preimmunization. Thirdly, there were striking differences in delayed-type hypersensitivity (DTH) to mBSA as determined by a radioisotopic assay in vivo; the response of CBA mice occurred early, at 5 days, declined quickly, and was weaker, whereas that of C57BL mice developed later and was long sustained. Genetic studies of the DTH response with hybrids and backcrosses showed an oligogenic control of immune responsiveness, with one gene being linked to the H-2b allele of the susceptible C57BL mice, and another being independent of the H-2 complex. Our findings indicate that in mice, susceptibility to antigen-induced arthritis with mBSA correlates with a higher responder state to this antigen, and that T cells are the major if not the only determinant of the high responder state.     

Growth-stimulating effects of somatomedin-/insulin-like peptides in Snell dwarf mice

The effect of the somatomedin-/insulin-like growth factors IGF-I, IGF-II and N2, as well as of semi-purified SM fractions separated by isoelectric focusing derived from human Cohn IV on different growth parameters, have been studied in the Snell dwarf mouse. HPLC-pure IGF-II, N2 and IGF-I stimulate to a similar extent the sulphate incorporation into costal cartilage, the osteochondral junction and epiphyseal cartilage. After 4 weeks of treatment, increase in body length and weight as well as the weights of several organs is obtained with SM fractions, focusing at acid and neutral pH, and containing mainly IGF-II- and less than 5% IGF-I-like peptides. Fractions containing mainly IGF-I-like peptides and focusing at basic pH at the dosage used seem to be less stimulatory on most of these parameters. The rump/tail ratio and weight/length ratio is comparable to that obtained after treatment with human growth hormone (hGH). hGH induced a significant stimulation of the weight of the liver, kidneys, heart, thymus and spleen. The acid and neutral SM fractions induced growth of the liver, kidneys and spleen. The basic fractions only produced a significant weight gain in kidneys and spleen. The skinfold thickness is stimulated by the SM preparations and only slightly by hGH.     

Biosynthetic human growth hormone: effects on growth of Snell dwarf mice

Bacterially synthesized human growth hormone (bhGH) administered to Snell dwarf mice during 4 weeks, induced an increase in body length and weight to a comparable degree as obtained with pituitary-derived human growth hormone (hGH). At a dose of 150 mU/day both bhGH and hGH induced a significant stimulation over saline-treated controls, of the weight of the submandibular salivary glands, the m. quadriceps femoris and gastrocnemius, the heart, liver, kidneys, thymus and spleen. The weight of the brain and the thickness of the skinfold were not influenced by either of the preparations used. When organ weights were expressed as a function of body weight, the contribution of the kidneys to body weight was significantly higher with hGH than with bhGH. The other organs studied did not show differences. As a biochemical parameter of cartilage growth, the sulfate incorporation into costal and epiphyseal cartilage in vitro was measured, and it was found to be stimulated by both hormones after short-term treatment. Thus bacterially synthesized hGH behaves identically to pituitary-derived hGH with respect to body length, sulfate incorporation into costal and epiphyseal cartilage, body weight and organ growth of Snell dwarf mice, with one exception: increase of weight of the kidneys, as a function of body weight, was more pronounced after treatment with hGH than with bhGH.     

Studies with crystalline insulin from obese and lean mice of the BL/6J strain.

Crystalline insulin was extracted and purified from the pancreases of obese (BL/6J/-ob/ob) and lean mice (BL/6J and BL/6J-ob/+). The two insulin preparations were compared with respect to their radioimmunologic properties as well as their ability to stimulate glucose metabolism in rat epididymal adipocytes and epididymal adipose tissue from obese and lean mice. No significant differences could be seen between the two insulin preparations and thus an insulin of altered biological properties is not likely to be an adequate explanation for the symptoms observed in the obese mouse.     

The effects of prenatal tertiary butanol administration in CBA/J and C57BL/6J mice

Pregnant mice of the CBA/J and C57BL/6J strains were given either tertiary butanol (10.5 mmoles/kg, p.o.) or an equivalent volume of tap water twice daily from day 6 through day 18 of gestation. Examination on day 18 revealed significantly more resorptions per litter in the t-butanol-treated animals but no interstrain difference. Tertiary butanol did not significantly affect the body weight of the survivors nor produce significant abnormalities in either strain. Subsequent blood concentration profiles in female C57BL/6J mice indicated that the treatment regimen produced blood levels equivalent to teratogenic ethanol treatment. Mice receiving 3 days of t-butanol treatment did not eliminate the drug more rapidly than control animals, indicating that tolerance was not a factor in the treatment regimen. Since t-butanol shares membrane disordering effects with ethanol but is not metabolized by the same pathway, a role for acetaldehyde or the process of ethanol metabolism is suggested in ethanol teratogenicity.     

Role of neuroendocrine hormones in murine T cell development. Growth hormone exerts thymopoietic effects in vivo.

Growth hormone (GH) and other neuroendocrine mediators have been implicated previously in T cell development. We therefore examined thymic development in DW/J dwarf mice. DW/J mice lack acidophilic anterior pituitary cells and consequently are totally deficient in the production of GH, as well as other neuroendocrine hormones. DW/J dwarf mice had greatly hypoplastic thymi that continued to decrease in size as the mice aged. Characterization of the different T cell subpopulations within the thymi of dwarf mice indicated a deficiency in CD4+/CD8+ double-positive thymocytes. This deficiency of progenitor cells became more complete as the mice aged culminating in the total disappearance of this subpopulation in some dwarf mice > 3 mo of age. Analysis of the lymph nodes indicated that a population of double-positive (CD4/CD8) T cells appeared in some mice concurrent with the disappearance of double-positive cells in the thymus suggesting that these thymocytes may have migrated to the periphery. However, peripheral T cells from dwarf mice did exhibit Ag-specific responses indicating that these mice have functional T cells. Treatment of the mice with recombinant human GH, which binds both murine growth hormone receptors and murine prolactin receptors, or ovine GH, which binds murine growth hormone receptors but not murine prolactin receptors, resulted in an increase in thymic size and the reappearance of the CD4+/CD8+ double-positive cells within the thymus. Additionally, after GH treatment, the double-positive cells disappeared from the lymph nodes. The thymi of mice treated with GH failed to attain normal size but did develop a normal distribution of T cell progenitors. Thus, GH exerts significant thymopoietic effects in vivo. Neuroendocrine hormones may be important for normal T cell differentiation to occur within the murine thymus.     

Supernumerary ovarian grafts in aging C57BL/6J mice reveal complexities in the neuroendocrine impairments of acyclic mice

Determinants of the age-related acyclic state, persistent vaginal cornification (PVC), were studied in reproductively senescent mice using a 2-stage ovarian transplantation procedure, whereby ovaries from young mice were grafted to older mice without removing their autogenous ovaries until 8 wk later. In contrast to the usual ("1-stage") procedure, in which the autogenous ovaries are removed at the time of grafting, the 2-stage approach is postulated to circumvent potential effects of the reduction in steroids during the ovariprival phase prior to vascularization of the grafted ovary, which may reverse age-related hypothalamic-pituitary impairments. The 2-stage transplantation procedure was validated in young C57BL/6J mice. Estrous cycles were not disrupted by removal of the autogenous ovaries 8 wk after the grafting, indicating that grafted ovaries began functioning before or within days after ovariectomy. No difference in estrous cycle frequency or distribution was detected between the young mice with 2-stage and those with 1-stage transplants for at least 3 mo after removal of the autogenous ovaries. Most older (15- to 18-mo-old) mice with PVC (70%) remained acyclic after receiving young ovaries by either the 1-stage or the 2-stage procedure, indicating that extra-ovarian, presumably neuroendocrine, impairments are sufficient to maintain acyclicity in most older mice once it is initiated. However, 30% of the older mice from each transplantation group began cycling after receiving young ovaries by either the 1-stage or 2-stage procedure, as observed before 1-stage transplants. Therefore, cycle reactivation was not a result of the transient ovariprival phase incurred during 1-stage transplantation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Acute and chronic cardiovascular effects of intermittent hypoxia in C57BL/6J mice.

We investigated the effects of 1) acute hypoxia and 2) 5 wk of chronic intermittent hypoxia (IH) on the systemic and pulmonary circulations of C57BL/6J mice. Mice were chronically instrumented with either femoral artery or right ventricular catheters. In response to acute hypoxia (4 min of 10% O2; n = 6), systemic arterial blood pressure fell (P < 0.005) from 107.7 +/- 2.5 to 84.7 +/- 6.5 mmHg, whereas right ventricular pressure increased (P < 0.005) from 11.7 +/- 0.8 to 14.9 +/- 1.3 mmHg. Another cohort of mice was then exposed to IH for 5 wk (O2 nadir = 5%, 60-s cycles, 12 h/day) and then implanted with catheters. In response to 5 wk of chronic IH, mice (n = 8) increased systemic blood pressure by 7.5 mmHg, left ventricle + septum weight by 32.2 +/- 7.5 x 10(-2) g/100 g body wt (P < 0.015), and right ventricle weight by 19.3 +/- 3.2 x 10(-2) g/100 g body wt (P < 0.001), resulting in a 14% increase in the right ventricle/left ventricle + septum weight (P < 0.005). We conclude that in C57BL/6J mice 1) acute hypoxia causes opposite effects on the pulmonary and systemic circulations, leading to preferential loading of the right heart; and 2) chronic IH in mice results in mild to moderate systemic and pulmonary hypertension, with resultant left- and right-sided ventricular hypertrophy.     

Neurohypophyseal hormones and behavior: effects of intracerebroventricularly injected hormone analogs in mice.

Neurohypophyseal hormones evoke spontaneous behavioral changes in mice. This study compares the potency of four naturally occuring neurohypophyseal hormones and of ten analogs with amino acid residue replacements selected in such a manner as to cover each residue position of the hormones with the exception of the cystine residue. Peptides were administered intraventricularly and the sum of foraging, scratching and squeaking, recorded at 30 second intervals during a 30 min session, was measured as a function of peptide dose. The most potent group of peptides is represented by the neurohypophyseal hormones as well as the five analogs [Hly⁸] vasopressin, [Δ³-Pro⁷]AVP, [Thi³]LVP, [Abu⁴]AVP and [Abu⁴]LVP. [Leu⁴]LVP showed significant activity but was far less potent than the natural hormones. None of the remaining analogs enhanced activity with an increase in peptide dose. This group included both peptides with C-terminal modifications and those in which the tyrosine (position 2) or the asparagine residue (position 5) of the hormones were substituted by alanine. The neurohypophyseal hormone-induced behavioral results of this study reveal a structure-function relationship, which is in its most important conclusions, identical to the conformation-activity model proposed for endocrine activities of neurohypophyseal peptides.     

Beneficial effects of pituitary grafts under the renal capsule on behavior of dwarf mutant mice

The effects of pituitary grafts under the kidney capsule were studied in "dwarf" mutant mice which because of anterohypophyseal deficiency, exhibit dwarfism, sterility and important behavioral deficits. One month after grafting, the body weight was 120% in the grafted mutants while only 11 and 8% respectively in normal and sham-grafted controls. At the behavioral level, the animals were examined on 2 tasks: spontaneous alteration in a T maze and passive avoidance (step-through). Grafted mutant mice, as well as sham-grafted normal controls, were able to alternate successfully, while the sham-grafted "dwarf" mice persevered. In the step-through task, grafted animals as well as sham-grafted normal mice, avoided, entering the dark compartment, 24 h after the shock trial. On contrast, sham-grafted dwarf mice did not show passive avoidance of the shock. According to the literature, pituitary grafts under the kidney capsule secrete high levels of prolactin and very little, if any, of other pituitary hormones. It is not yet clear how the presence of only prolactin can explain the body weight and the maintenance of the behaviors we investigated.     

Antiviral effects of double-stranded RNA from rice dwarf virus on infection of mice with western equine encephalitis virus.

A single administration (1 to 10 mg/kg) of rice dwarf virus RNA (RDV-RNA) prior to virus challenge reduced the mortality of mice infected with western equine encephalitis (WEE) virus. The protective effect of RDV-RNA was significantly higher than that of polyinosinic-polycytidylic acid. However, when these RNAs were given after virus infection, the protective effect was negligible. The titer of circulating interferon in mice reached a peak about 5 hr after injection of these RNAs and remained at this level for about 24 hr. Viremia in mice infected with a lethal dose of WEE virus was markedly suppressed by the treatment of mice with these RNAs. A pathological examination of mice treated with a lethal dose of RDV-RNA revealed marked changes including degeneration and karyorrhexis in the lymphoid tissues of the spleen.     

Immunocytochemical effects of thyroxine stimulation on the adenohypophysis of dwarf (dw) mutant mice

The effects of dietary thyroxine on the immunoreactivity of cells in the pars distalis of the adenohypophysis in dwarf (dw/dw) mice were determined by ultrastructural immunocytochemistry. In nontreated dwarfs only adrenocorticotropic hormone (ACTH) cells and luteinizing hormone (LH) cells showed positive reactions to their respective antibodies, whereas no cells showed immunoreactivity to antibodies to growth hormone (GH), thyroid-stimulating hormone (TSH), or prolactin (Prl). In dwarfs supplemented postnatally with dietary thyroxine for 9 wks, the treatment failed to produced immunoreactive GH, TSH or Prl cells. However, LH cells became more prominent and fully developed, with denser concentrations of immunoreactive particles overlying the secretory granules than occurred in nontreated dwarfs. In thyroxine-treated dwarfs, ACTH cells were similar in ultrastructural features and immunoreactivity to those in nontreated dwarfs.     

Myeloproliferative sarcoma virus: its effects on erythropoiesis in adult DBA/2J mice

Adult susceptible mice (DBA/2J) infected with MPSV (myeloproliferative sarcoma virus), a defective RNA tumour virus, develop splenomegaly and progressive disruption of the haematologic system culminating in death. The present study was specifically directed toward determining the effects of the virus on erythroid differentiation. Early and late precursor cells (erythroid burst-forming units; BFU-E and colony-forming units; CFU-E, respectively) were evaluated by the ability of bone marrow and spleen cells to form colonies of fully differentiated erythroid cells in vitro. MPSV caused substantial modification of both the BFU-E and CFU-E populations in the bone marrow and spleen of infected animals. Changes were detected in the CFU-E population preceding any significant increase in spleen weight. In the bone marrow, the proportion of CFU-E cells increased almost twofold by days 5-10 after virus infection but decreased by day 15. In the spleen, CFU-E frequency rose 40-fold by days 10-15 and then declined steadily prior to death. At the peak of CFU-E expansion, a small proportion of the population appeared to be erythropoietin (Ep) independent, although there was no evidence of a complete switch to Ep-independence which occurs in Friend virus-induced erythroleukemia. Dose-response curves showed that none of these data could be explained in terms of a changing responsiveness to Ep. However, evidence is presented that indicates that BFU-E from MPSV-infected animals lose or have a reduced requirement for burst-promoting activity (BPA) relative to normal cells although their progeny still need Ep for terminal erythroid differentiation.     

Immunologic effects of morphine administration in rabbits.

Long-term effects of morphine administration or immunologic test responses were studied in female rabbits. Implantation of morphine-containing pellets was found to be more effective than injection of morphine sulfate solutions in promoting increased serum binding of 140-morphine. A large part of the increased morphine binding by sera associated with administration of morphine was found in serum fractions containing gamma-globulin and was absent in gamma-globulin-free fractions. These sera showed some degree of specificity for the morphine configuration in tests with other narcotics. They also gave positive immunologic test reactions in passive hemagglutination and radial immunodiffusion tests involving serum albumins conjugated with morphine derivatives. Other evidence for immunologic responsiveness against morphine by morphine-pretreated rabbits was shown by cutaneous hypersensitivity reactions against morphine-carrier conjugates and by a diminution of the serum morphine-binding response in rabbits given an immunosuppressive dose of cyclophosphamide. Failure of naloxone, a morphine antagonist, to alter the serum morphine-binding response suggested that serum levels of the morphine-binding globulin studied here were not direclty related to morphine withdrawal.     

Studies of congenic MRL-Ipr/Ipr.xid mice

Highly inbred MRL-Ipr/Ipr.xid congenic mice were bred and compared with their + littermates. The xid-bearing congenics developed lymphadenopathy consisting of dull Ly-1+ T cells and impairment of cellular proliferation and IL 2 production in response to the T cell mitogen Con A. Thus, the lpr gene was fully expressed. The xid gene, however, was also expressed as indicated by the failure to respond to immunization with TNP-Ficoll and flow cytometric analysis of splenic B cells. The xid gene was associated with a marked reduction in IgM anti-ssDNA and anti-nDNA of both classes, and serum Ig-bound gp 70. Kidney disease was markedly retarded as was death from the autoimmune process. These studies suggest that the T cell lymphoproliferation and dysfunction characteristic of MRL-Ipr/Ipr mice is not sufficient to induce accelerated autoimmunity; xid is able to markedly slow the process. The xid gene interferes with the development of a B cell subset necessary for maximum autoantibody production, anti-gp 70 production, and the resultant immune complex renal and cardiac disease. The present finding of protection against accelerated autoimmunity in MRL-Ipr/Ipr mice by xid, coupled with previous demonstrations of protection against autoimmunity in other autoimmune mouse strains, suggests that a common approach to the therapy of systemic lupus may be possible.