UMLS:C0599766 - FACTA Search

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Query: UMLS:C0599766 (functional recovery)
13,441 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The axonal regenerative properties of the new immunosuppressant drug FK506 (tacrolimus) are further explored in this continuing study. In an initial report (Gold et al., 1994a), we described the ability of FK506 to reduce the time until return of function in the hind feet of rats following a sciatic nerve crush. In the present study, we examined the morphological correlate underlying this enhancement of functional recovery. In rats receiving daily subcutaneous injections of FK506 (1.0 mg/kg) for 18 d following a sciatic nerve crush the regenerating axons appeared larger in size compared to saline-injected control animals. Morphometric analysis of axonal calibers in the soleus nerve demonstrated that mean axonal areas for the largest 30% of axons were increased over axotomized control values by 93% in the FK506-treated animals. Next, the rate of axonal regeneration was determined by radiolabeling the L5 dorsal root ganglion (DRG) at 9 and 14 d following axotomy. Regression analysis of the outgrowth distances for sensory axons between 10 and 15 d revealed a 16% increase in regeneration rate. Electron microscopy of intramuscular nerve branches in the interosseus muscles confirmed that the axons in the FK506-treated animals were further advanced toward their targets; in some instances, axons were shown to reinnervate muscle spindles. The results are discussed in terms of the known ability of FK506 to inhibit the activity protein phosphatase 2B (calcineurin).
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PMID:The immunosuppressant FK506 increases the rate of axonal regeneration in rat sciatic nerve. 747 2

The new immunosuppressant drug FK506 (Tacrolimus) increases the rate of nerve regeneration in vivo (Gold et al., 1994; Gold et al., 1995). In the present study, we have examined the dose-dependence of FK506's ability to enhance nerve regeneration. In the first set of experiments, rats received daily s.c. injections of FK506 (2 mg/kg, 5 mg/kg or 10 mg/kg) for 18 days after a sciatic nerve crush injury. Signs of functional recovery in the hind feet appeared earlier than in saline-treated control rats at all three FK506 dosage; recovery was maximally accelerated in the 5-mg/kg group. Light microscopy at 18 days after nerve crush revealed more regenerating myelinated fibers in FK506-treated rats than in controls; this was most apparent in the 5-mg/kg group. Morphometric analysis of axonal areas in the soleus nerve confirmed that axonal calibers were maximally increased in the 5-mg/kg group. In the second set of experiments, the rate of axonal regeneration was determined by radiolabeling the L5 dorsal root ganglion. Regeneration rate for sensory axons was maximally increased (by 34%) in the 5-mg/kg group. In contrast, cyclosporin A (10 or 50 mg/kg; dosages were selected on the basis of the 1/10 lower potency of cyclosporin A) did not significantly alter the rate of axonal regeneration. Cyclosporin A (50 mg/kg) also failed to increase functional recovery or axonal calibers in the soleus nerve. Because the two drugs share a common mechanism for producing immunosuppression (i.e., calcineurin inhibition), these results indicate that FK506's nerve regenerative property involves a distinct, calcineurin-independent mechanism.
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PMID:Comparative dose-dependence study of FK506 and cyclosporin A on the rate of axonal regeneration in the rat sciatic nerve. 926 78

The immunosuppressant drugs FK506 and cyclosporin A inhibit T-cell proliferation via a common mechanism: calcineurin inhibition following binding to their respective binding proteins, the peptidyl prolyl isomerases FKBP-12 and cyclophilin A. In contrast, FK506, but not cyclosporin A, accelerates nerve regeneration. In the present study, we show that the potent FKBP-12 inhibitor V-10,367, which lacks the structural components of FK506 required for calcineurin inhibition, increases neurite outgrowth in SH-SY5Y neuroblastoma cells and speeds nerve regeneration in the rat sciatic nerve crush model. In SH-SY5Y cells, V-10,367 increased the lengths of neurite processes in a concentration-dependent (between 1 and 10 nM) fashion over time (up to 168 h). Daily subcutaneous injections of V-10,367 accelerated the onset of clinical signs of functional recovery in the hind feet compared to vehicle-treated control animals. Interdigit distances (between the first and fifth digits) measured on foot prints obtained during walking showed an increase in toe spread in V-10,367-treated rats compared to vehicle-treated controls. Electron microscopy demonstrated larger regenerating axons distal to the crush site in the sciatic nerve from V-10,367-treated rats. Quantitation of axonal areas in the soleus nerve revealed a shift to larger axonal calibers in V-10,367-treated rats (400 or 200 mg/kg/day); mean axonal areas were increased by 52 and 59%, respectively, compared to vehicle-treated controls. FKBP-12 ligands lacking calcineurin inhibitory activity represent a new class of potential drugs for the treatment of human peripheral nerve disorders.
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PMID:A nonimmunosuppressant FKBP-12 ligand increases nerve regeneration. 934 52

FK506 is a new FDA-approved immunosuppressant used for prevention of allograft rejection in, for example, liver and kidney transplantations. FK506 is inactive by itself and requires binding to an FK506 binding protein-12 (FKBP-12), or immunophilin, for activation. In this regard, FK506 is analogous to cyclosporin A, which must bind to its immunophilin (cyclophilin A) to display activity. This FK506-FKBP complex inhibits the activity of the serine/threonine protein phosphatase 2B (calcineurin), the basis for the immunosuppressant action of FK506. The discovery that immunophilins are also present in the nervous system introduces a new level of complexity in the regulation of neuronal function. Two important calcineurin targets in brain are the growth-associated protein GAP-43 and nitric oxide (NO) synthase (NOS). This review focuses on studies showing that systemic administration of FK506 dose-dependently speeds nerve regeneration and functional recovery in rats following a sciatic-nerve crush injury. The effect appears to result from an increased rate of axonal regeneration. The nerve regenerative property of this class of agents is separate from their immunosuppressant action because FK506-related compounds that bind to FKBP-12 but do not inhibit calcineurin are also able to increase nerve regeneration. Thus, FK506's ability to increase nerve regeneration arises via a calcineurin-independent mechanism (i.e., one not involving an increase in GAP-43 phosphorylation). Possible mechanisms of action are discussed in relation to known actions of FKBPs: the interaction of FKBP-12 with two Ca2+ release-channels (the ryanodine and inositol 1,4,5-triphosphate receptors) which is disrupted by FK506, thereby increasing Ca2+ flux; the type 1 receptor for the transforming growth factor-beta (TGF-beta 1), which stimulates nerve growth factor (NGF) synthesis by glial cells, and is a natural ligand for FKBP-12; and the immunophilin FKBP-52/FKBP-59, which has also been identified as a heat-shock protein (HSP-56) and is a component of the nontransformed glucocorticoid receptor. Taken together, studies of FK506 indicate broad functional roles for the immunophilins in the nervous system. Both calcineurin-dependent (e.g., neuroprotection via reduced NO formation) and calcineurin-independent mechanisms (i.e., nerve regeneration) need to be invoked to explain the many different neuronal effects of FK506. This suggests that multiple immunophilins mediate FK506's neuronal effects. Novel, nonimmunosuppressant ligands for FKBPs may represent important new drugs for the treatment of a variety of neurological disorders.
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PMID:FK506 and the role of immunophilins in nerve regeneration. 945 3

FK506, an immunosuppressant drug used to prevent allograft rejection in organ transplantations, accelerates functional recovery and nerve regeneration in the rat sciatic nerve crush model. While the mechanism by which FK506 increases regeneration is unknown, in contrast to immunosuppression, it does not involve calcineurin inhibition. Using the reverse-transcriptase polymerase chain reaction (RT-PCR) technique and a digoxigenin-labeled probe, we show that subcutaneous injections of FK506 (10 mg/kg/day) markedly increases the level of axotomy-induced growth-associated protein (GAP-43) mRNA in dorsal root ganglion (DRG) neurons. Quantitation of DRG neurons revealed that FK506 produced a 33% increase in the numbers of neurons exhibiting intense staining. Increased synthesis of GAP-43 may play a role in FK506's ability to speed nerve regeneration.
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PMID:The immunosuppressant FK506 increases GAP-43 mRNA levels in axotomized sensory neurons. 950 7

Tacrolimus (FK506), a widely used immunosuppressant drug, has neurite-promoting activity in cultured PC12 cells and peripheral neurons. The present study investigated whether tacrolimus affects the expression of the neuronal growth-associated protein, GAP-43, as well as functional recovery after photothrombotic spinal cord injury in the rat. In injured animals receiving tacrolimus, the number of neurons expressing GAP-43 mRNA and protein approximately doubled compared to that in injured animals receiving vehicle alone. This increase in GAP-43-positive cells was paralleled by a significant improvement in neurological function evaluated by open-field and inclined plane tests. Another FKBP-12 ligand (V-10,367) had similar effects on GAP-43 expression and functional outcome, indicating that the observed effects of tacrolimus do not involve inhibition of the phosphatase calcineurin. Thus, tacrolimus, a drug which is already approved for use in humans, as well as other FKBP-12 ligands which do not inhibit calcineurin, could potentially enhance functional outcome after CNS injury in humans.
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PMID:Tacrolimus (FK506) increases neuronal expression of GAP-43 and improves functional recovery after spinal cord injury in rats. 987 2

The sometimes dramatic and permanent functional deficits that result from severe peripheral nerve injuries provide compelling incentives to identify exogenous agents that may expedite axonal regrowth and avoid prolonged denervation of end organs. The purpose of this study was to identify, whether the regular systemic administration of tacrolimus (FK506) or cyclosporin A (CsA) would influence the speed and efficiency of nerve regeneration through short nerve grafts. A total of 35 Buffalo rats each received a 2-cm posterior tibial nerve graft and were randomized to one of three experimental groups. Group I animals were left untreated, group II received daily CsA (5 mg/kg intraperitoneally), and group III received daily FK506 (1 mg/kg intraperitoneally). Walking tracks were obtained starting 3 weeks after graft placement and continuing biweekly for the next 7 weeks. FK506-treated animals fully recovered hindlimb function 7 days earlier than CsA-treated animals or untreated control animals. Regenerated nerves from one-half of each treatment group were harvested for histomorphometric analysis at 7 weeks, shortly after recovery was complete in the FK506-treatment group but not in the other two groups, and once again at 10.5 weeks when recovery of function had stabilized in all groups. At 7 weeks, FK506-treated animals had significantly greater fiber density and percentage of neural tissue per nerve and a significantly larger population of mature, myelinated fibers in comparison with either CsA-treated or untreated animals. The authors concluded that the daily, systemic administration of low-dose FK506 facilitates peripheral nerve recovery and regeneration after nerve grafting.
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PMID:FK506 accelerates functional recovery following nerve grafting in a rat model. 1035 55

In this study we examine whether the systemic administration of FK506 or Cyclosporin A (CsA) expedited functional recovery following an axonotmetic nerve injury, and compared their effects in a rat model. Seventy-five adult Buffalo rats received a crush injury to the right posterior tibial nerve and subsequently underwent either no treatment (group I), daily injections of FK506 (group II), or daily injections of CsA (group III). Walking track analysis demonstrated return of hindlimb function by 20 days postoperatively in group I, 14 days in group II, and 18 days in group III. The blood-nerve barrier (BNB) was reconstituted by postoperative day (POD) 7 in both FK506- and CsA-treated animals and by POD 13 in control animals. These results suggest that recovery of function is more rapid with daily administration of FK506 than with CsA or no treatment, perhaps because of earlier restoration of the blood-nerve barrier. Agents that facilitate nerve regeneration have the potential to limit the extent of motor endplate loss and muscle atrophy seen with prolonged denervation, thereby limiting permanent functional loss.
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PMID:FK506 promotes functional recovery in crushed rat sciatic nerve. 1071 76

The aim of this work was to test in vivo a new block copolymer-based delivery system containing lipophilic drug FK506, known as Tacrolimus. Tacrolimus is currently used in clinics as an immunosupressant agent, and more recently it has been shown that it can exert neurotrophic effects. We prepared, characterized, and assessed polycaprolactone-b-polyethylenoxyde (PCL-b-PEO) micelles containing FK506 in vitro and in vivo. By using well-established animal model of peripheral nerve injury (crushed sciatic nerve), we show that the rate of functional recovery of injured nerve is significantly enhanced in rats treated with micellar FK506. These findings support the notion that PCL-b-PEO is a suitable polymer material for FK506 and suggest its wider applicability as a delivery vehicle for other biologically active, poorly soluble therapeutic agents.
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PMID:PCL-b-PEO micelles as a delivery vehicle for FK506: assessment of a functional recovery of crushed peripheral nerve. 1098 14

The neuroregenerative properties of FK506, an FKBP-12 ligand that inhibits calcineurin, and V-10,367, an FKBP-12 ligand that does not inhibit calcineurin, were evaluated in crush and transection models. Rats were randomly assigned to one of seven groups, including untreated controls and FK506- or V-10,367-treated experimental groups. Following crush or transection nerve injury, animals were assessed with walking tracks, and histomorphometry. FK506-treated animals demonstrated significant functional recovery 11 days following crush and 18 days following transection injury. In untreated and V-10,367 treated animals, nerves recovered 13 days following crush injury, but did not improve significantly prior to sacrifice at 28 days in animals sustaining a transection injury. No statistically significant differences in histomorphometric parameters were identified between any of the groups. The study confirms that FK506 accelerates recovery from tibial nerve injury.
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PMID:Effects of FKBP-12 ligands following tibial nerve injury in rats. 1112 84

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