Fatty acid supplements improve hair coat condition in rhesus macaques.

As captive rhesus macaques often exhibit hair loss, alopecia was quantified and behavior was recorded before, during, and after fatty acid supplementation in six macaques. Fatty acid treatment was associated with a decrease in alopecia and in self-grooming behavior. Therefore, fatty acids may be a viable treatment for alopecia in some captive primates.

Skin-specific alloantigens in miniature swine.

BACKGROUND: The acceptance of skin allografts has historically been among the most challenging problems in the field of transplantation, attributed, at least in part, to the existence of antigens expressed by skin but not by other tissues. Many studies have suggested the existence of skin-specific antigens in rodents, but data in large-animal models are more limited. METHODS: We have recently developed protocols for attaining stable mixed hematopoietic chimerism in miniature swine, using MHC-matched donors and recipients. We have now assessed tolerance to donor-derived skin and cardiac allografts in these chimeric animals. RESULTS: Skin-graft rejection was seen in four of six animals receiving skin grafts taken from the respective hematopoietic donors. In the other two animals, donor-derived skin grafts survived indefinitely. No cardiac-allograft rejection was observed in mixed-chimeric animals that received heart transplants from their hematopoietic donors, even in animals that had already rejected skin allografts from the same donors. In all animals assessed, in vitro hyporesponsiveness to donor hematopoietic cells persisted. CONCLUSION: These findings support the concept that skin expresses immunogenic alloantigens that either are not expressed or are not immunogenic in cardiac or hematopoietic tissue.

Mixed hematopoietic chimerism induces long-term tolerance to cardiac allografts in miniature swine.

BACKGROUND: Tolerance to cardiac allografts has not been achieved in large animals using methods that are readily applicable to human recipients. We investigated the effects of mixed hematopoietic chimerism on cardiac allograft survival and chronic rejection in miniature swine METHODS: Recipients were T-cell depleted using a porcine CD3 immunotoxin, and each received either of two nonmyeloablative preparative regimens previously demonstrated to permit the establishment of stable mixed hematopoietic chimerism across MHC-matched, minor antigen-mismatched histocompatibility barriers. Five to 12 months after the chimerism was induced, hearts from the original cell donors were heterotopically transplanted into the stable mixed chimeras. RESULTS: Cardiac allografts transplanted into untreated recipients across similar minor antigen barriers were rejected within 44 days (within 21, 28, 35, 39, 44 days among individual study subjects). In contrast, hearts transplanted into the mixed chimeras were all accepted long term ( > 153, > 225, > 286, > 362 days) without immunosuppressive drugs and developed minimal vasculopathy. CONCLUSIONS: Mixed hematopoietic chimerism, established in miniature swine using clinically relevant, non-myeloablative conditioning regimens, permits long-term cardiac allograft survival without chronic immunosuppressive therapy, significant vasculopathy, or graft-versus-host disease.

Mechanisms of tolerance induction and prevention of cardiac allograft vasculopathy in miniature swine: the effect of augmentation of donor antigen load.

OBJECTIVE: Cotransplantation of a donor kidney along with a heart allograft can induce tolerance to both organs and prevent cardiac allograft vasculopathy in miniature swine. To determine whether the tolerogenic effect of donor kidney cotransplantation was due to an effect specific to the kidney graft or to an increase in donor antigen load, we compared heart-kidney recipients with recipients receiving two class I disparate hearts or with recipients receiving donor peripheral mononuclear cells at the time of isolated heart transplantation. METHODS: Recipients of major histocompatibility complex class I disparate allografts received 12 days of cyclosporine (INN: cyclosporin; 10-13 mg/kg administered intravenously on days 0-11). Group 1 animals received a heart alone (n = 5). Group 2 animals received heart and kidney allografts (n = 4). Group 3 animals received two major histocompatibility complex-matched heart allografts (n = 4). Two double-heart recipients were thymectomized 21 days before transplantation. Group 4 animals received a heart allograft and an infusion of high-dose donor peripheral blood leukocytes (2.5 x 10(9) cells/kg, n = 2). RESULTS: Vasculopathy developed in group 1 recipients and the allografts were rejected within 55 days. Group 2 recipients accepted their heart and kidney allografts indefinitely without vasculopathy. Euthymic recipients from group 3 accepted their hearts long-term (>190 and >197 days), but vascular lesions developed. In thymectomized recipients from group 3, the hearts were rejected in 63 and 96 days with severe vasculopathy. Group 4 recipients demonstrated transient macrochimerism but their hearts were rejected within 47 and 63 days. CONCLUSIONS: The beneficial effects of donor kidney cotransplantation on cardiac allograft survival and prevention of cardiac allograft vasculopathy are likely to involve both an increase in donor antigen load and an effect specific to the kidney allograft.

The effect of thymectomy on tolerance induction and cardiac allograft vasculopathy in a miniature swine heart/kidney transplantation model.

BACKGROUND: We have previously demonstrated that MHC class I disparate hearts transplanted into miniature swine treated with a short course of cyclosporine developed florid cardiac allograft vasculopathy (CAV) and were rejected within 55 days. However, when a donor-specific kidney is cotransplanted with the heart allograft, recipients become tolerant to donor antigen and accept both allografts long-term without the development of CAV. In the present study, we have investigated the role of the host thymus in the induction of tolerance and prevention of CAV in heart/kidney recipients. METHODS: Total thymectomies were performed in six animals (postoperative day [POD]-21), which on day 0 received either an isolated MHC class I disparate heart allograft (n=3) or combined class I disparate heart and kidney allografts (n=3), followed in both cases by a 12-day course of cyclosporine (POD 0-11). Graft survival and the development of CAV in these thymectomized recipients were compared to the same parameters in non-thymectomized, cyclosporine-treated recipients bearing either class I disparate heart allografts (n=5) or heart and kidney allografts (n=4). RESULTS: In the group of animals bearing isolated class I disparate heart allografts, the thymectomized recipients rejected their allografts earlier (POD 8, 22, 27) than the non-thymectomized recipients (POD 33,35,45,47,55). The donor hearts in both the thymectomized and non-thymectomized animals developed florid CAV. In the group of animals bearing combined class I disparate heart and kidney allografts, the nonthymectomized recipients accepted both donor organs long term with no evidence of CAV. In contrast, none of the thymectomized heart/kidney recipients survived >100 days, and they all developed the intimal proliferation of CAV. CONCLUSION: Thymic-dependent mechanisms are necessary for the induction of acquired tolerance and prevention of CAV in porcine heart/kidney recipients.

Creation of the "thymoheart" allograft: implantation of autologous thymus into the heart prior to procurement.

BACKGROUND: A state of tolerance may be more easily achieved if fully vascularized and functional donor thymus is transferred to the recipient at the time of whole organ transplantation. METHODS: A composite "thymoheart" allograft was created by implanting autologous thymus into a donor heart 60-90 days before organ procurement. Successful intracardiac engraftment of autologous thymus was documented by histology and by flow cytometric analysis. RESULTS: Histology of the thymic autografts at explantation revealed viable thymus with preservation of normal thymic architecture. Cells retrieved from thymic autografts 60 days after implantation exhibited the same MHC class I and class II staining profiles by flow cytometry as cells taken from the residual native thymus. CONCLUSION: We have created a novel composite organ that confers vascularized and functional donor thymus to heart allograft recipients at the time of transplantation without affecting cardiac function.

Encoding words and pictures: a positron emission tomography study.

Subjects viewed words, pictures, crosshairs, or a large X flanked by two smaller xs on either side while their brain activity was monitored using positron emission tomography (PET). When activation from the pictures, crosshairs, or Xs condition was subtracted from activation in the words condition, the left angular gyrus and Broca's area were found to be activated. In the comparison of words and pictures, additional language areas were activated. These results provide support for the classical neurological model of reading. The results also suggest that a "word form area" is near the margin of the left angular gyrus.

Evidence for aberrant auditory anatomy in developmental dyslexia.

Abnormal auditory processing in dyslexics suggests that accompanying anatomical abnormalities might be present in the auditory system. Therefore, we measured cross-sectional neuronal areas in the medial geniculate nuclei (MGNs) of five dyslexic and seven control brains. In contrast to controls, which showed no asymmetry, the left-side MGN neurons were significantly smaller than the right in the dyslexic sample. Also, as compared with controls, there were more small neurons and fewer large neurons in the left dyslexic MGN. These findings are consistent with reported behavioral findings of a left hemisphere-based phonological defect in dyslexic individuals.