B220- bone marrow progenitor cells from New Zealand black autoimmune mice exhibit an age-associated decline in Pre-B and B-cell generation.

New Zealand Black (NZB) autoimmune mice exhibit progressive, age-dependent reduction in bone marrow pre-B cells. To ascertain the capacity of NZB bone marrow B220- cells to generate pre-B cells in a supportive environment, B-lineage (B220+) cell-depleted and T-cell-depleted bone marrow cells from NZB mice at 1 to 3, 6, and 10 to 11 months of age were adoptively transferred into irradiated (200R) C.B17 severe combined immunodeficient (SCID) mice. Bone marrow pre-B cells (sIgM- CD43[S7]- B220+) were assessed 3 and 10 weeks posttransfer. Pre-B cells and B cells were reconstituted in SCID recipients of older NZB progenitor cells by 10 weeks posttransplant, in contrast to the very low numbers of pre-B cells present in the donor bone marrow. However, B220- bone marrow progenitor cells from greater than 10-month-old NZB donors were deficient in the reconstitution of both pre-B and B cells in SCID recipients at 3 weeks post-transfer. This reflected a slower kinetics of repopulation, because older NZB-->SCID recipients had numbers of both pre-B and B cells similar to recipients of young NZB progenitor cells by 10 weeks posttransplant. Adoptive transfer of equal mixtures of BALB/c and older NZB bone marrow B220- progenitor cells into irradiated C.B17 SCID recipients failed to demonstrate active suppression. These results suggest that, with age, NZB bone marrow has reduced numbers and/or function of early B220- B-lineage progenitors. Consistent with this hypothesis, B220- bone marrow cells from older NZB mice were deficient in progenitors capable of yielding interleukin-7 (IL-7) responsive pre-B cells in vitro on stimulation with the pre-B-cell potentiating factor, insulin-like growth factor 1 (IGF-1).

Light and electron microscopic study of omental milky spots in New Zealand black mice, with special reference to the extramedullary hematopoiesis.

Omental milky spots are especially large and numerous in New Zealand Black (NZB) mice, which are known to develop spontaneous autoimmune diseases. We investigated omental milky spots in NZB mice by light and electron microscopy. The milky spots were composed of abundant lymphocytes/plasma cells with macrophages, neutrophils, eosinophils, megakaryocytes, and various stromal cells. In addition, clustered neutrophils in various maturation stages with occasional mitotic figures were frequently present in the milky spots: apparent neutrophilic myelopoiesis was present. The presence of megakaryocytes was sporadic. Considering the giant size of megakaryocytes, their direct migration into the milky spots from the bone marrow or spleen seems improbable. Thus, the presence of megakaryocytes was interpreted as probable megakaryopoiesis. Erythroblasts were not contained in the milky spots. These findings seem to indicate that the milky spots in NZB mice represent a special type of lymphoid tissue with active neutrophilic myelopoiesis and probable megakaryopoiesis. Reticulum cells in the milky spots in NZB mice had well-developed dense bodies consisting of clustered parallel tubules that showed a hexagonal array. However, the biological significance of these cells remains unknown.

Abnormalities of foliation and neuronal position in the cerebellum of NZB/BINJ mouse.

To analyze developmental abnormalities related to neural migration in the NZB/BINJ mouse, the pattern of cerebellar foliation and neural position were compared with that of a normal mouse (C57BL/6J). Three abnormalities of cerebellar foliation--(1) lobe isolated from other cerebellar lobes, (2) lobes imbalanced in relative amounts or ratio of granular cell layer and molecular layer, (3) lobes in which some Purkinje cells and the molecular layer was embedded in the granular cell layer--were observed in NZB/BINJ mice. These morphological abnormalities were not limited to a specific lobe. On the other hand, abnormalities of neural position were observed in both granule and Purkinje cells. The pattern of ectopically-situated granule cells, in general, could be divided into 3 types: (1) large cell clusters extending from granular cell layer to the pia mater or middle part of the molecular layer, (2) clusters of various sizes scattered within the white matter and (3) clusters formed by combination of granule cells extending from two opposed granular cell layers to the molecular layer. The pattern of ectopically-situated Purkinje cells could be divided into 4 types: (1) ectopia of a group of cells from one part of the Purkinje cell layer, (2) ectopia of a single Purkinje cell observed in the molecular layer, (3) single Purkinje cell scattered within the white matter accompanied by clusters of ectopic granule cells and (4) ectopic Purkinje cells embedded in the granular cell layer. The abnormalities in position of both granule cells and Purkinje cells was not limited to a particular cerebellar lobe.(ABSTRACT TRUNCATED AT 250 WORDS)

Thymic reticulum of autoimmune mice. II: Ultrastructural studies of mice with lupus-like syndrome (NZB, BXSB, MRL/l).

We examined the thymic reticulum of three strains of mice showing symptoms of lupus-like disease. Ultrastructural pathology revealed several features common to the three mouse strains in varying degrees according to sex and age of the mice. Main anomalies included vacuolized aspect of the thymic epithelium, an increased number of macrophages, interdigitating cells and cystic cavities, the presence of a great number of plasmocytes and mastocytes and extensive interstitial fibrosis and arteriosclerosis. The most intriguing finding was the presence of crystal-like inclusions in epithelial cells. Some thymuses also showed premature histologic modifications similar to those observed in the ageing involuted thymus. Dysfunction of the epithelial cell secretory system, accumulation of denatured thymic hormone as well as premature organ ageing associated with a loss of thymic function could contribute significantly to the autoimmune phenomenon observed in lupus mice.

Local cerebral glucose utilization in the autoimmune New Zealand black (NZB) mouse.

By means of the [14C]-2-deoxyglucose method the local cerebral glucose utilization (LCGU) was measured in 41 brain regions in autoimmune New Zealand Black (NZB) mice and in Carworth Farm Winkelmann (CFW) mice, which served as the control strain. At the age of 6 months, the mean LCGU of all measured areas and brain stem nuclei was 67.7 mumol glucose/(100 g x min) in the nonautoimmune CFW mice. These LCGU values are within the limits published by other observers. In contrast, in the aged-matched NZB mice the glucose use was markedly reduced, the mean LCGU of all measured areas being 37.7 mumol glucose/(100 g x min). These findings suggest that the immunological, morphological and behavioural abnormalities in the aged NZB mouse correlate with a reduced functional activity of the central nervous system, measured as reduced cerebral glucose utilization.

[Biological foundations of dyslexia. A review]. / Fundamentos biológicos de la dislexia: Una revisión.

This is a review that summarizes the work done in our laboratory during the last three years. We have studied four dyslexic brains. They all bear a symmetric anatomical pattern in a structure closely related to the language areas (planum temporale), which is more commonly asymmetric in normal brains. In addition, their microscopic examination shows numerous ectopias and dysplasias in the cerebral cortex. The high incidence of immune disease in dyslexics and their families suggests a more general developmental problem in developmental dyslexia. The hypothesis is raised that fetal effects of testosterone are involved in regulating neurological as well as immunological development, whereby abnormally high testosterone activity would produce a twofold deficit. Finally, strains of immune-defective mice have been found that bear the same cortical abnormalities as seen in the dyslexic brains previously studied. The immune-defective mouse may prove to be an excellent model for the study of the neuropathological basis of developmental dyslexia.

Cortical anomalies in brains of New Zealand mice: a neuropathologic model of dyslexia?

Cortical anomalies have been reported in the brains of dyslexic individuals. In addition, dyslexic and left-handed individuals have a higher than expected rate of some immune-related diseases. The possible association between immune and cerebrocortical pathology was investigated in the immune-defective New Zealand Black mouse and its hybrid with the New Zealand White mouse. Structural anomalies similar to those present in the dyslexic brain were seen in the brains of these mice.

Mononuclear-cell pulmonary vasculitis in NZB/W mice. I. Histopathologic evaluation of spontaneously occurring pulmonary infiltrates.

This report describes the spontaneous occurrence of pulmonary vasculitis in NZB/W mice, a well-characterized autoimmune strain of mice. These mice develop pulmonary vasculitis in an age-related fashion. Mild perivascular and peribronchiolar lymphoid hyperplasia is first seen at 4 months of age and progresses into severe hyperplasia by 8 months. This precedes the development of angiodestructive lesions, which are first noticeable at 10 months. By 12 months of age all mice show multilobe disease characterized by transmural infiltration of the vascular walls by plasma cells, histiocytes, and mature lymphocytes. Mitotic figures and necrosis are rare to absent. Vessel lumens are markedly narrowed and obliterated in severe cases, with focal disruption of the limiting elastic membranes. In mice older than 10 months of age, there is extension of the infiltrate into the interstitium in a manner similar to that of lymphoid interstitial pneumonia. Arteries and veins are equally affected. The cellular infiltrates and pattern of involvement bears similarity to various pulmonary vasculitides in humans. This is the first report of spontaneous pulmonary vasculitis in NZB/W mice.

Equal distribution of T-lymphocyte subpopulations in thymus and spleen cells of NZB and BALB/c mice.

NZB mice develop an autoimmune disease of unknown etiology. Since the detection of immunoregulatory T-cells it has been speculated that disbalances of these cells may be important in the course of the NZB disease. By utilization of monoclonal antibody defining immunoregulatory Lyt subsets and a FACS IV system we investigated whether differences in the number and/or marker densities of given subsets exist between NZB and the normal reference strain BALB/c. Newborn animals and animals up to 60 weeks of age were tested. No significant difference in the percentages nor in the marker densities of theta+, Lyt 1+, and Lyt 2+ cells was observed at any age or sex, neither in spleen nor in thymus. It is concluded the autoimmune disease of NZB is not influenced by the parameters investigated.