Fumonisins are a group of mycotoxins that alter sphingolipid biosynthesis and induce leukoencephalomalacia in horses and pulmonary edema in pigs. Experimental administration of fumonisin induces hepatotoxicity in all species, including cattle, as well as nephrotoxicity in rats, rabbits, and sheep. We investigated the hepatotoxicity and nephrotoxicity of fumonisin B(1) to calves. Ten milk-fed male Holstein calves aged 7 to 14 days were instrumented to obtain blood and urine. Treated calves (n = 5) were administered fumonisin B(1) at 1 mg/kg, iv, daily and controls (n = 5) 10 ml 0.9% NaCl, iv, daily until euthanized on day 7. Fumonisin B(1)-treated calves were lethargic and had decreased appetite from day 4 onward, serum biochemical evidence of severe liver and bile duct injury, and impaired hepatic function. Treated calves also had biochemical evidence of renal injury that functionally involved the proximal convoluted tubules. Sphinganine and sphingosine concentrations in liver, kidney, lung, heart, and skeletal muscle were increased in treated calves. Sphinganine, but not sphingosine, concentration was increased in brains of treated calves. In fumonisin B(1)-treated calves, hepatic lesions were characterized by disorganized hepatic cords, varying severity of hepatocyte apoptosis, hepatocyte proliferation, and proliferation of bile ductular cells. Renal lesions in treated calves consisted of vacuolar change, apoptosis, karyomegaly, and proliferation of proximal renal tubular cells, as well as dilation of proximal renal tubules, which contained cellular debris and protein. This is the first report of fumonisin B(1)-induced renal injury and organ sphingolipid alterations in cattle.
An association was detected among fumonisin-induced neurologic disease, increased serum and myocardial sphinganine and sphingosine concentrations, and decreased cardiovascular function in horses. Fumonisin-induced decreases in cardiovascular function may contribute to the pathophysiologic development of leukoencephalomalacia in horses.
The objective of this experiment was to characterize a dose-dependent toxic effect of fumonisin B1 (FB1) and to document initial neurologic signs, clinical progression, and terminal cerebrospinal fluid (CSF) changes in horses administered FB1 IV. Seventeen healthy horses were administered 0.00 (n = 4), 0.01 (n = 3), 0.05 (n = 3), 0.10 (n = 3), or 0.20 mg (n = 4) of purified FB1 IV q24h. When neurologic abnormalities observed by a masked observer became severe, atlanto-occipital CSF taps were performed and CSF pressure, cell count, cytology, protein, albumin and glucose concentrations, and creatine kinase activity were measured. Changes in CSF and number of days to 1st observation of neurologic abnormalities were compared between doses by ANOVA, with the level of significance set at P < .05. Control horses and low-dose horses (0.01 mg/kg) remained neurologically normal. In higher dose FB1-treated horses (n = 10), initial clinical signs (days 4-10) included hindlimb ataxia, delayed forelimb placing, and decreased tongue tone and movement. Hindlimb and trunkal ataxia, depression, hyperesthesia, and intermittent dementia gradually became apparent. When data from all horses with neurologic abnormalities were pooled (0.05-0.20 mg/kg FB1), mild clinical signs (mean day 6.3) occurred significantly earlier than did more severe (mean day 8.9) clinical signs (P = .009). Neurologic horses had high CSF protein, albumin, and IgG concentrations and increased albumin quotients (P < .05). It was concluded that FB1-induced neurologic and CSF changes in a dose-dependent manner, with a no-observable-limit of 0.01 mg FB1/kg IV q24h for 28 days. The neurologic and CSF changes were consistent with vasogenic cerebral edema.
The objective of this experiment was to characterize a dose-dependent toxic effect of fumonisin B 1 (FB 1 ) and to document initial neurologic signs, clinical progression, and terminal cerebrospinal fluid (CSF) changes in horses administered FB 1 IV. Seventeen healthy horses were administered 0.00 (n ϭ 4), 0.01 (n ϭ 3), 0.05 (n ϭ 3), 0.10 (n ϭ 3), or 0.20 mg (n ϭ 4) of purified FB 1 IV q24h. When neurologic abnormalities observed by a masked observer became severe, atlanto-occipital CSF taps were performed and CSF pressure, cell count, cytology, protein, albumin and glucose concentrations, and creatine kinase activity were measured. Changes in CSF and number of days to 1st observation of neurologic abnormalities were compared between doses by ANOVA, with the level of significance set at P Ͻ .05. Control horses and low-dose horses (0.01 mg/kg) remained neurologically normal. In higher dose FB 1 -treated horses (n ϭ 10), initial clinical signs (days 4-10) included hindlimb ataxia, delayed forelimb placing, and decreased tongue tone and movement. Hindlimb and trunkal ataxia, depression, hyperesthesia, and intermittent dementia gradually became apparent. When data from all horses with neurologic abnormalities were pooled (0.05-0.20 mg/kg FB 1 ), mild clinical signs (mean day 6.3) occurred significantly earlier than did more severe (mean day 8.9) clinical signs (P ϭ .009). Neurologic horses had high CSF protein, albumin, and IgG concentrations and increased albumin quotients (P Ͻ .05). It was concluded that FB 1 -induced neurologic and CSF changes in a dose-dependent manner, with a no-observable-limit of 0.01 mg FB 1 /kg IV q24h for 28 days. The neurologic and CSF changes were consistent with vasogenic cerebral edema.
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