Long-term survival of human neural stem cells in the ischemic rat brain upon transient immunosuppression

Understanding the physiology of human neural stem cells (hNSCs) in the context of cell therapy for neurodegenerative disorders is of paramount importance, yet large-scale studies are hampered by the slow-expansion rate of these cells. To overcome this issue, we previously established immortal, non-transformed, telencephalic-diencephalic hNSCs (IhNSCs) from the fetal brain. Here, we investigated the fate of these IhNSC's immediate progeny (i.e. neural progenitors; IhNSC-Ps) upon unilateral implantation into the corpus callosum or the hippocampal fissure of adult rat brain, 3 days after global ischemic injury. One month after grafting, approximately one fifth of the IhNSC-Ps had survived and migrated through the corpus callosum, into the cortex or throughout the dentate gyrus of the hippocampus. By the fourth month, they had reached the ipsilateral subventricular zone, CA1-3 hippocampal layers and the controlateral hemisphere. Notably, these results could be accomplished using transient immunosuppression, i.e administering cyclosporine for 15 days following the ischemic event. Furthermore, a concomitant reduction of reactive microglia (Iba1+ cells) and of glial, GFAP+ cells was also observed in the ipsilateral hemisphere as compared to the controlateral one. IhNSC-Ps were not tumorigenic and, upon in vivo engraftment, underwent differentiation into GFAP+ astrocytes, and β-tubulinIII+ or MAP2+ neurons, which displayed GABAergic and GLUTAmatergic markers. Electron microscopy analysis pointed to the formation of mature synaptic contacts between host and donor-derived neurons, showing the full maturation of the IhNSC-P-derived neurons and their likely functional integration into the host tissue. Thus, IhNSC-Ps possess long-term survival and engraftment capacity upon transplantation into the globally injured ischemic brain, into which they can integrate and mature into neurons, even under mild, transient immunosuppressive conditions. Most notably, transplanted IhNSC-P can significantly dampen the inflammatory response in the lesioned host brain. This work further supports hNSCs as a reliable and safe source of cells for transplantation therapy in neurodegenerative disorders.     

Cyclosporine and experimental skin allografts: long-term survival in rats treated with low maintenance doses

Although cyclosporine (CsA) is a powerful immunosuppressive agent in organ transplantation, its efficacy in skin transplantation has not been examined completely. We have tested it as primary immunosuppression in a rat skin allograft model. Histoincompatible Brown-Norway skin grafts are rejected in untreated Lewis hosts within 9 +/- 1 days but survive for 22 +/- 3, 34 +/- 2, or 41 +/- 8 days after 7, 14, or 21 days of CsA treatment (15 mg/kg per day subcutaneously), respectively (p less than 0.001). Animals treated daily for 4 weeks died from drug toxicity; however, an initial 2-week course followed by a low maintenance dose (15 mg/kg every fourth day) produced indefinite (greater than 150 days) graft acceptance without side effects. The long-surviving grafts were supple, grew long hair, and showed normal histology. When the drug was stopped at any time during this maintenance period, early signs of rejection (hair loss, epidermal breakdown, and localized ulceration) occurred, which could be reversed completely by a short CsA "pulse" (15 mg/kg per day for 7 days). These experimental data support the potential application of CsA immunosuppression in human skin allotransplantation.     

Liposome-mediated combinatorial cytokine gene therapy induces localized synergistic immunosuppression and promotes long-term survival of cardiac allografts

Localized gene transfer has the potential to introduce immunosuppressive molecules only into the transplanted allograft, which would limit systemic side effects, and prolong allograft survival. However, an applicable gene transfer strategy is not available, and the feasible therapeutic gene(s) has not yet been determined. We developed an ex vivo liposome-mediated gene therapy strategy that is able to intracoronary deliver the combination of IL-4 and IL-10 cDNA expression vectors to the allograft simultaneously. We examined the efficiency, efficacy, and cardiac adverse effects of this combinatorial gene therapy protocol using a rabbit functional cervical heterotopic heart transplant model. Although the efficiency was moderate, the expression of both transgenes was long lasting and localized only in the target organ. The mean survival of cardiac allograft was prolonged from 7 to >100 days. Synergism of overexpressed IL-4 and IL-10 in the inhibition of T lymphocyte infiltration and cytoxicity, and modulation of Th1/Th2 cytokine production promote long-term survival of cardiac allografts.     

Long-term immunologic induction of donor-specific tolerance to skin allografts by bone marrow transplant in rabbits

The induction of donor-specific tolerance to skin allografts was investigated in rabbits using bone marrow transplantation techniques reported to be effective in mice. Various routes of bone marrow transplantation (i.e., intravenous, portal venous, or intraosseous) were also examined. In regimen A, the animals were treated with portal venous injection of bone marrow cells from the donor on day 0 and intravenous injection of bone marrow cells from the same donor on posttransplant day 5. In regimen B, the animals were treated with portal venous and intraosseous injections of donor bone marrow cells on day 0 and intravenous injection of bone marrow cells from the same donor on posttransplant day 5. In regimen C, the animals were given intraosseous injection of donor bone marrow cells on day 0 and intravenous injection of bone marrow cells from the same donor on posttransplant day 5. It was found that regimens B and C were more effective than regimen A in prolonging allograft survival. The results demonstrate that induction of allograft tolerance can be achieved by bone marrow transplantation in a rabbit model. This protocol deserves further study in other large animal models.     

Long-term survival of corneal allografts is dependent on intact CD1d-reactive NKT cells

BALB/c mice that tolerate the allogeneic grafts develop allogeneic-specific anterior chamber-associated immune deviation. Because CD1d-reactive NKT cells are essential for anterior chamber-associated immune deviation, we postulated that the survival of C57BL/6 (B6) cornea graft in BALB/c mice was also dependent on CD1d-reactive NKT cells. The B6 corneal graft rejection rate in BALB/c vs Jalpha281 knockout (KO) mice, which lack NKT cells, was measured. While there were no difference in the early phase of rejection, the survival rates at 12 wk after grafting for BALB/c and Jalpha281 KO mice were 50 and 0%, respectively. Because anti-CD1d mAb abrogated the corneal graft survival in the wild-type mice we concluded that CD1d-reactive NKT cells were essential for graft survival. Moreover, allospecific T regulatory (Tr) cells correlated with acceptance of B6 grafts in BALB/c mice, and the adoptive transfer of these allospecific Tr cells to Jalpha281 KO mice allowed a 50% survival rate of B6 cornea grafts. In conclusion, CD1d-reactive NKT cells are required for induction of allospecific Tr cells and are essential for survival of corneal allografts. Mechanisms that contribute to cornea graft acceptance may lead to new therapies for improvement in graft survival in high-risk corneas and other transplanted tissues and grafts.     

Assessment of organ culture for the conservation of human skin allografts

Objective Human skin allografts are used in the treatment of severe burns and their preservation is therefore critical for optimal clinical benefit. Current preservation methods, such as 4°C storage or cryopreservation, cannot prevent the decrease of tissue viability. The aim of this study was to assess viability and function of skin allografts in a new skin organ culture model, allowing conservation parameters as close as possible to physiological conditions: 32°C, air–liquid interface and physiological skin tension. Design Twelve skin samples, harvested from 6 living surgical donors, were conserved 35 days in two conditions: conservation at 4°C and organ culture. Viability and function of skin samples were investigated at Day 0, 7, 14, 21, 28 and 35 using cell culture methods (trypan blue exclusion, Colony Forming Efficiency and Growth Rate), histopathological and histoenzymological studies (Ki67 immunostaining). Results In the two conditions, fibroblast and keratinocyte viability was progressively affected by storage, with a significant decrease observed after 35 days. No statistical difference could be observed between the two conditions. The two methods were also comparable regarding alterations of fibroblast and keratinocyte culture parameters, which were respectively significantly reduced at Day 7 and 21, compared to fresh skin. By contrast, histopathological and histoenzymological studies revealed a better preservation of skin architecture and proliferative potential at 4°C, as compared to organ culture. Conclusion These results indicate that skin organ culture does not provide significant advantages for skin allograft preservation. However, its potential use as an experimental model to study skin physiology and wound healing should be further evaluated.     

Long-term clinical experience with fresh osteochondral allografts for articular knee defects in high demand patients

Fresh osteochondral allografts are used to repair osteoarticular defects of the knee. For post-traumatic defects recent advances in other techniques for cartilage repair and resurfacing have reduced the role of allograft tissue transplantation to defects larger than 3 cm in diameter and 1 cm in depth. A fresh osteochondral allograft that has been harvested from a donor within 24 h from death and preserved in 4°C for up to 4 days shows 100% viability of the cartilage. The avascular bone remains structurally intact and mechanically strong until it is replaced by host bone or until it is weakened or absorbed. The indications for fresh osteochondral allografts for reconstructive surgery of the articular surface of the knee do not justify the use of immunosuppressive drugs and we therefore believe that surgical vascularization of the grafts should not be carried out. This clinical approach can provide a reconstructive solution for younger higher demand patients where implants are not desirable and arthrodesis is not acceptable. A clinical follow-up study as early as 1975 showed successful early outcomes. More recently, survival analysis found 95% survival at 5 years, 71% at 10 years, and 66% at 20 years. It was learned that older patients, bipolar transplants, improper loading of the graft, and grafts for osteoarthritis and steroid-induced avascular necrosis do not lead to good long-term outcomes. We would like to describe here some of our long-term clinical experience concerning this surgery. This revised version was published online in July 2006 with corrections to the Cover Date.     

Long-term histopathologic evaluation of human expanded skin.

Forty-two patients operated on by skin expansion have been contacted after a mean time of 25 months from the last surgery. Two biopsies have been taken from the expanded area of each patient. In 12 patients it has been possible to obtain a similar sampling from the opposite, nonexpanded area of the body. The samples underwent optic microscopy and cell kinetic and DNA content investigations. The epidermal structure of the followed-up skin, compared with the skin of the opposite side of the body, looks normal. The mitotic activity of the epidermal cells has returned to the values of preexpanded skin. The dermis shows a low degree of elastosis and zonal fragmentation of elastic fibers. The hypodermis, where the expander capsule was removed during the last surgery, does not show an accentuated fibrosis.     

Disinfection of human skin allografts in tissue banking: a systematic review report

The use of skin allografts to temporarily replace lost or damaged skin is practiced worldwide. Naturally occurring contamination can be present on skin or can be introduced at recovery or during processing. This contamination can pose a threat to allograft recipients. Bacterial culture and disinfection of allografts are mandated, but the specific practices and methodologies are not dictated by standards. A systematic review of literature from three databases found 12 research articles that evaluated bioburden reduction processes of skin grafts. The use of broad spectrum antibiotics and antifungal agents was the most frequently identified disinfection method reported demonstrating reductions in contamination rates. It was determined that the greatest reduction in the skin allograft contamination rates utilized 0.1 % peracetic acid or 25 kGy of gamma irradiation at lower temperatures.     

Neonatal induction of tolerance to skeletal tissue allografts without immunosuppression

Vascularized allogeneic skeletal tissue transplantation without the need for host immunosuppression would increase reconstructive options for treating congenital and acquired defects. Because the immune system of a fetus or neonate is immature, it may be possible to induce tolerance to allogeneic skeletal tissues by alloantigen injection during this permissive period. Within 12 hours after birth, 17 neonatal Lewis rats were injected through the superficial temporal vein with 3.5 to 5 million Brown Norway bone marrow cells in 0.1 ml normal saline. Ten weeks after the injection, peripheral blood from the Lewis rats was analyzed for the presence of Brown Norway cells to determine hemopoietic chimerism. The Lewis rats then received a heterotopic, vascularized limb tissue transplant (consisting of the knee, the distal femur, the proximal tibia, and the surrounding muscle on a femoral vascular pedicle) from Brown Norway rat donors to determine their tolerance to the allogeneic tissue. A positive control group (n = 6) consisted of syngeneic transplants from Lewis rats into naive Lewis rats to demonstrate survival of transplants. A negative control group (n = 6) consisted of Brown Norway transplants into naive Lewis rats not receiving bone marrow or other immunosuppressive treatment. The animals were assessed for transplant viability 30 days after transplantation using histologic and bone fluorochrome analysis. All the syngeneic controls (Lewis to Lewis) remained viable throughout the experiment, whereas all the Brown Norway to Lewis controls had rejected. Ten of the 17 allografts transplanted into bone marrow recipients were viable at 30 days, with profuse bleeding from the ends of the bone graft and the surrounding graft muscle. The percent of chimerism correlated with survival, with 3.31 percent (SD = 1.9) of peripheral blood, Brown Norway chimerism present in the prolonged survival groups and 0.75 percent (SD = 0.5) of Brown Norway chimerism in the rejected graft group. This study demonstrated prolonged survival of allogeneic skeletal tissue without immunosuppression after early neonatal injection of allogeneic bone marrow in a rat model.     

Long-term survival of a free split-thickness skin graft on a large seroma

A free skin graft about 12 cm in diameter transplanted after excision of a Bowen's carcinoma on the back totally survived for a long period on seroma and was confirmed to have revascularization from the host skin margin. Repeated evacuations of the fluid and subsequent pressure dressings failed to cause adherence of the graft to the bed, even on the thirty-ninth postoperative day. Histologic examination of the graft and the bed revealed partial epithelialization on the face-to-face surfaces, to which no adherence was attributed. The incomprehensible phenomenon in this unusual clinical case evokes a new interest in the mechanism of free skin graft survival, particularly in the phase of serum imbibition.     

Viability of cryopreserved human skin allografts: effects of transport media and cryoprotectant

Human skin allografts can be preserved by different methods. In our clinical practice, human skin allografts are harvested on multi-organ and tissue donors, transferred at +4°C in Ringer Lactate, cryopreserved with 15% Glycerol and held in the vapor phase of a liquid nitrogen freezer until delivery to the burn center. The aim of this experimental study was to evaluate the impact of transport medium and cryoprotectant on the viability of human skin allografts. For this purpose, we compared skin samples harvested from 19 multi-organ and tissue donors with two different transport media and two different cryoprotectants. Viability was assessed by the MTT assay after harvesting at laboratory reception, during storage (at +4°C) at day 2 and day 7, and after cryopreservation and thawing. Histopathological analysis was performed for each MTT assay. Results indicate that, when stored at +4°C, skin retains more viability with RPMI, whereas Glycerol and DMSO are equivalent cryoprotectants regardless of the transport medium. In conclusion, our protocol could be improved by the utilization of RPMI as transport medium.     

Long-term survival of human rotavirus in raw and treated river water

This study was aimed at assessing the role of water as a vehicle for rotavirus spread by determining how well these viruses survive in the water environment. A cell culture adapted strain of human rotavirus subgroup 2, grown in MA-104 cells, was used as a model. Virus survival was tested in the following types of water samples, derived from the Ottawa River, at two different times of the year: (i) raw water (RW), (ii) muncipally treated tap water (TW), and (iii) raw water that had been filtered (FW) through a membrane (0.22 micron). The water samples, with approximately 5.0 X 10(4) plaque-forming units (PFU) of the virus, were held at either 4 or 20 degrees C and tested for infectious virus over a period of 64 days. The TW samples had a total and free chlorine content of 0.05 and less than 0.05 mg/L, respectively. The chlorine in these samples was not neutralized before virus contamination. Irrespective of the holding temperature, the virus titre in FW remained essentially unaltered throughout the test period. In TW held at 4 degrees C, there was no significant drop in the virus titre even after 64 days, whereas at 20 degrees C the titre in TW was reduced by about 2 log10 over the same period. Even though the loss of virus infectivity was most rapid in RW held at 20 degrees C, it took about 10 days for a 99.0% reduction in the plaque titre of the virus. These findings, therefore, indicate that rotaviruses can survive for several days in raw and treated river water thus making recreational and potable waters potential vehicles for the transmission of rotavirus infections.