BACKGROUND: Retroviral involvement in amyotrophic lateral sclerosis (ALS) has been suspected for several years since the recognition that both murine and human retroviruses can cause ALS-like syndromes. Nonquantitative studies have demonstrated the retroviral enzyme reverse transcriptase (RT) in ALS patients' sera, but the amount and source of RT activity are unknown. We therefore developed a quantitative assay to study RT levels in ALS and examined the possibility that the recently discovered human gammaretrovirus XMRV (xenotropic MuLV-related virus) might be the source of the RT activity. METHODS: A quantitative product-enhanced RT assay was used to measure RT activity levels in serum and CSF. XMRV sequences were sought by PCR analysis of DNA and RNA extracted from blood. RESULTS: Fifty percent of ALS patients' sera contained >6 x 10(-8) RT units/mL as opposed to 7% of control sera (p = 0.008). The levels of RT activity in ALS patients were comparable to the levels observed in patients infected with HIV. RT activity was detected in only 1 of 25 CSF samples tested. XMRV sequences were not found in any of 25 nucleic acid extracts obtained from ALS patients' blood. CONCLUSIONS: These findings further support the concept of retroviral involvement in amyotrophic lateral sclerosis (ALS) and demonstrate that serum is more suitable than CSF for assay of reverse transcriptase (RT) activity in this disease. The levels of serum RT activity detected are comparable to those found in HIV infection. XMRV is not detectable in the blood of ALS patients, and the agent responsible for ALS-associated RT activity therefore remains unidentified.
BACKGROUND: Retroviral involvement in amyotrophic lateral sclerosis (ALS) has been suspected for several years since the recognition that both murine and human retroviruses can cause ALS-like syndromes. Nonquantitative studies have demonstrated the retroviral enzyme reverse transcriptase (RT) in ALSpatients' sera, but the amount and source of RT activity are unknown. We therefore developed a quantitative assay to study RT levels in ALS and examined the possibility that the recently discovered human gammaretrovirus XMRV (xenotropic MuLV-related virus) might be the source of the RT activity. METHODS: A quantitative product-enhanced RT assay was used to measure RT activity levels in serum and CSF. XMRV sequences were sought by PCR analysis of DNA and RNA extracted from blood. RESULTS: Fifty percent of ALSpatients' sera contained >6 x 10(-8) RT units/mL as opposed to 7% of control sera (p = 0.008). The levels of RT activity in ALSpatients were comparable to the levels observed in patientsinfected with HIV. RT activity was detected in only 1 of 25 CSF samples tested. XMRV sequences were not found in any of 25 nucleic acid extracts obtained from ALSpatients' blood. CONCLUSIONS: These findings further support the concept of retroviral involvement in amyotrophic lateral sclerosis (ALS) and demonstrate that serum is more suitable than CSF for assay of reverse transcriptase (RT) activity in this disease. The levels of serum RT activity detected are comparable to those found in HIV infection. XMRV is not detectable in the blood of ALSpatients, and the agent responsible for ALS-associated RT activity therefore remains unidentified.
Authors: Gregory Q Del Prete; Mary F Kearney; Jon Spindler; Ann Wiegand; Elena Chertova; James D Roser; Jacob D Estes; Xing Pei Hao; Charles M Trubey; Abigail Lara; Kyeongeun Lee; Chawaree Chaipan; Julian W Bess; Kunio Nagashima; Brandon F Keele; Rhonda Macallister; Jeremy Smedley; Vinay K Pathak; Vineet N Kewalramani; John M Coffin; Jeffrey D Lifson Journal: J Virol Date: 2012-01-11 Impact factor: 5.103
Authors: Lotte Vlam; Sanne Piepers; Nadia A Sutedja; Bart C Jacobs; Anne P Tio-Gillen; Marloes Stam; Hessel Franssen; Jan H Veldink; Elisabeth A Cats; Nicolette C Notermans; Andries C Bloem; Renske I Wadman; W-Ludo van der Pol; Leonard H van den Berg Journal: J Neurol Date: 2015-01-01 Impact factor: 4.849