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Drug
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Compound
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Query: UMLS:C0002736 (
amyotrophic lateral sclerosis
)
19,048
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the
B10
.D2 leads to
B10
.D2(M504) strain combination (H-2D incompatibility), 20--40% of skin allografts survive for more than 100 days in
ALS
-treated recipients. Allograft tolerance in
ALS
-treated recipients could not be abolished by adoptively transferred normal or immune syngeneic spleen cells, but it could be adoptively transferred by spleen or lymph node cells to sublethally irradiated syngeneic mice. The suppressive activity of transferred cell population markedly declined after treatment with anti Thy-1.2 serum and complement. Cells with suppressor activity could be demonstrated by adoptive transfers as early as 5 days after skin grafting and
ALS
treatment. The results showed that the long-term allograft-promoting effect of
ALS
was caused not only by a decrease in the graft-rejection cell potential of the recipients (as demonstrated by other authors earlier) but also by the activation of a T cell-mediated suppressor mechanism.
...
PMID:Induction of suppressor cell mechanism in antilymphocyte serum-induced skin allograft tolerance in mice. 15 95
Although chronic immunosuppression has been extremely successful in clinical organ transplantation, it is associated with severe complications such as opportunistic infections, spontaneous neoplasms, drug toxicities, metabolic complications, and the inability to control rejection. We therefore have investigated the ability of allogeneic donor lymphoid cells to produce specific tolerance following intrathymic (IT) injection into allograft recipients. Groups of B6AF1 mice received
ALS
on days -1 and +2 relative to C3H/He skin grafts on day 0; experimental groups received 1, 5, or 10 x 10(7) syngeneic (B6AF1) or allogeneic (C3H) spleen cells (SPCs) by IT injection on day +7. IT injection of C3H splenocytes significantly prolonged allograft survival at all cell doses tested when compared with
ALS
controls. The best survival was obtained following IT injection of 5 x 10(7) C3H cells (median survival time [MST] = 132 days;
ALS
controls = 21.5 days), with 8 of 13 skin grafts surviving longer than 100 days. IT injection of syngeneic splenocytes or third-party DBA/2 splenocytes did not prolong allograft survival beyond that observed in
ALS
controls. C3H spleen cells injected IT into
ALS
treated mice on day 0 relative to grafting of C3H skin also produced significant allograft survival (1, 5, or 10 x 10(7) SPCs = MSTs of 75, 47, and 35, respectively) but the results were inferior to those obtained by 5 x 10(7) SPCs IT on day +7. Spleen cells (1 or 5 x 10(7)) injected intraperitoneally or intravenously prolonged allograft survival beyond that seen in
ALS
controls but were inferior to IT injection at all doses and times studied. Bone marrow, thymocytes, or lymph node cells (5 x 10(7) cells) were substituted for SPCs for IT injection. IT injection of BM, LN or thymocytes all significantly prolonged graft survival over
ALS
controls. However none of these cell types was as effective as IT splenocytes. Eight B6Af1 recipients of IT splenocytes bearing C3H skin grafts for > 100 days received a second C3H skin graft as well as a simultaneous third-party
B10
.AKM skin graft. All rejected third-party grafts in normal first-set fashion. Three tolerated both 1st and 2nd C3H grafts without any sign of rejection; 1 rejected the 2nd C3H graft while tolerating the 1st graft; and 4 rejected the 2nd C3H graft in an attenuated fashion but also rejected the 1st graft at the same pace.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Induction of specific unresponsiveness (tolerance) to skin allografts by intrathymic donor-specific splenocyte injection in antilymphocyte serum-treated mice. 146 74
Posttransplant infusion of donor bone marrow cells (BMC) induces tolerance to allografts in adult mice, dogs, nonhuman primates, and probably humans. Here we used a mouse skin allograft model and an allogeneic radiation chimera model to examine the role of MHC Ags in tolerance induction. Infusion of MHC class II Ag-deficient (CIID) BMC failed to prolong C57BL/6 (B6) skin grafts in
ALS
- and rapamycin-treated
B10
.A mice, whereas wild-type B6 or MHC class I Ag-deficient BMC induced prolongation. Removal of class II Ag-bearing cells from donor BMC markedly reduced the tolerogenic effect compared with untreated BMC, although graft survival was significantly longer in mice given depleted BMC than that in control mice given no BMC. Infusion of CIID BMC into irradiated syngeneic B6 or allogeneic
B10
.A mice produced normal lymphoid cell reconstitution including CD4+ T cells except for the absence of class II Ag-positive cells. However, irradiated
B10
.A mice reconstituted with CIID BMC rejected all B6 and a majority of CIID skin grafts despite continued maintenance of high degree chimerism.
B10
.A mice reconstituted with B6 BMC maintained chimerism and accepted both B6 and CIID skin grafts. Thus, expression of MHC class II Ag on BMC is essential for allograft tolerance induction and peripheral chimerism with cells deficient in class II Ag does not guarantee allograft acceptance.
...
PMID:Donor MHC class II antigen is essential for induction of transplantation tolerance by bone marrow cells. 1077 44
Transgenic (Tg) mouse models of FALS containing mutant human SOD1 genes (G37R, G85R, D90A, or G93A missense mutations or truncated SOD1) exhibit progressive neurodegeneration of the motor system that bears a striking resemblance to
ALS
, both clinically and pathologically. The most utilized and best characterized Tg mice are the G93A mutant hSOD1 (Tg(hSOD1-G93A)1GUR mice), abbreviated G93A. In this review we highlight what is known about background-dependent differences in disease phenotype in transgenic mice that carry mutated human or mouse SOD1. Expression of G93A-hSOD1Tg in congenic lines with ALR, NOD.Rag1KO, SJL or C3H backgrounds show a more severe phenotype than in the mixed (B6xSJL) hSOD1Tg mice, whereas a milder phenotype is observed in B6,
B10
, BALB/c and DBA inbred lines. We hypothesize that the background differences are due to disease-modifying genes. Identification of modifier genes can highlight intracellular pathways already suspected to be involved in motor neuron degeneration; it may also point to new pathways and processes that have not yet been considered. Most importantly, identified modifier genes provide new targets for the development of therapies.
...
PMID:Effect of genetic background on phenotype variability in transgenic mouse models of amyotrophic lateral sclerosis: a window of opportunity in the search for genetic modifiers. 2124 Nov 59
TAR DNA binding protein (TDP43) is a DNA- and RNA-binding protein that is implicated in several neurodegenerative disorders termed as "TDP43 proteinopathies" including Alzheimer's disease (AD),
amyotrophic lateral sclerosis
(
ALS
) and fronto-temporal lobe dementia (FTLD). We have developed an InCell Western (ICW) technique for screening TDP targeting drugs in 96 well plates. We tested 281 compounds and identified a novel compound hexachlorophene (referred to as
B10
) that showed potent reduction in TDP43 levels. The effect of
B10
on TDP protein level was validated in two different cellular models: endogenous TDP43 expressing N9 microglial cells and TDP43-over-expressing HEK293 and HeLa cells. We also analyzed effect of
B10
on various pathological forms of TDP such as the C25 cleaved fragment that localizes to the cytosol, insoluble high molecular weight species, and
ALS
-linked mutants. Our data suggest that
B10
effectively reduces all forms of TDP. Overall, our data suggest that
B10
could serve as a potential drug molecule for the treatment of AD,
ALS
and other TDP43 proteinopathies.
...
PMID:An optimized InCell Western screening technique identifies hexachlorophene as a novel potent TDP43 targeting drug. 2598 61
