Diagnosis of HAM/TSP based on CSF proviral HTLV-I DNA and HTLV-I antibody index

The contribution of human T-cell lymphotropic virus (HTLV-I) DNA by PCR in CSF and the intrathecal synthesis of antibodies to HTLV-I by the antibody index (AI) to the diagnosis of HTLV-1-associated myelopathy (HAM)/tropical spastic paraparesis (TSP) were evaluated. Cases of spastic paraparesis compatible with HAM/TSP had increased AI for HTLV-I (60/73) and HTLV-I proviral sequences in CSF (25/27). Among 27 patients with other neurologic diseases, three had increased AI and another three had positive HTLV-I DNA in CSF. Thus, the combination of PCR for proviral DNA and AI for HTLV-I in CSF provides consistent criteria for the diagnosis of HAM/TSP.     

Analysis of HTLV-I proviral load in 202 HAM/TSP patients and 243 asymptomatic HTLV-I carriers: high proviral load strongly predisposes to HAM/TSP

In order to examine the effect of HTLV-I proviral load on the pathogenesis of HAM/TSP, we measured the HTLV-I proviral load in peripheral blood mononuclear cells (PBMC) from a large number of HAM/TSP patients and asymptomatic HTLV-I carriers. To measure the proviral load, we used an accurate and reproducible quantitative PCR method using a dual-labeled fluorogenic probe (ABI PRISM 7700 Sequence Detection System). The mean +/- standard error of mean (s.e.m.) HTLV-I proviral copy number per 1 x 10(4) PBMC was 798 +/- 51 (median 544) in 202 HAM/TSP patients; 120 +/- 17 (median 34) in 200 non HAM-related (general) asymptomatic HTLV-I carriers (RC); and 496 +/- 82 (median 321) in 43 asymptomatic HTLV-I carriers genetically related to HAM/TSP patients (FA). The prevalence of HAM/TSP rises exponentially with log (proviral load) once the proviral load exceeds 1% PBMC. The HTLV-I proviral load of female patients with HAM/TSP was significantly higher than that of male patients, however there was no significant difference in proviral load between sexes in RC. There was a significant correlation between the proviral load and the concentration of neopterin in CSF of HAM/TSP patients. These results indicate that the HTLV-I proviral load in PBMC may be related to the inflammatory process in the spinal cord lesion. The increased proviral load in FA suggests the existence of genetic factors contributing to the replication of HTLV-I in vivo.     

Accumulation of human T-lymphotropic virus type I (HTLV-I)-infected cells in the cerebrospinal fluid during the exacerbation of HTLV-I-associated myelopathy

Human T-lymphotropic virus type I (HTLV-I)-associated myelopathy/tropical spastic paraparesis (HAM/TSP) is a slowly progressive, inflammatory disease of the central nervous system (CNS). We report a patient with transverse myelitis, who exhibited acute onset and rapid progression of the disease and whose symptoms resembled those observed in multiple sclerosis with spinal cord presentation. During neurological exacerbation of the condition, the HTLV-I proviral load in the cerebrospinal fluid (CSF) increased to 10 times that in the peripheral blood. This suggests that the accumulation of HTLV-I-infected cells in the CNS contributes to neurological exacerbation. Based on the increased proviral load in the CSF, we diagnosed the disease as acute progressive HAM/TSP. The measurement of the HTLV-I proviral load in the CSF is useful for the diagnosis of HAM/TSP and for monitoring its progression.     

Usefulness of proviral load measurement for monitoring of disease activity in individual patients with human T-lymphotropic virus type I-associated myelopathy/tropical spastic paraparesis

High human T-lymphotropic virus type I (HTLV-I) proviral load in peripheral blood mononuclear cells (PBMCs) has been reported in patients with HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP) and the proviral load has been reported to fluctuate in individual patients during the course of the disease. Clinical symptoms usually became stable after a prolonged period of symptom progression. However, the authors have experienced having some patients whose clinical manifestations suddenly became worse during the course of the disease. To clarify the role of high proviral load and its fluctuation in the pathogenesis of HAM/TSP, the authors measured the proviral load of serially taken PBMCs as well as of cerebrospinal fluid (CSF) cells from patients with HAM/TSP on long-term follow-up and compared these with their clinical manifestations. There was a wide distribution of proviral load, from 0.3 to 37.8 copies/100 PBMCs; however, the proviral load in individual patients was relatively stable during the course of the disease. Eighty-three percent of the patients with clinical worsening showed an increase in proviral load at the time point when clinical worsening was recorded, or at the preceding time point. The proviral loads in CSF cells were higher than those in PBMCs in individual patients. The ratio of proviral loads in CSF cells/in PBMCs, but not the absolute load, in either compartment, was significantly associated with clinically progressive disease and with recent onset of HAM/TSP. These findings indicate that clinical progression of HAM/TSP is associated with increased proliferation or immigration of HTLV-I-infected lymphocytes in the central nervous system.     

Antibody titers to HTLV-I-p40tax protein and gag-env hybrid protein in HTLV-I-associated myelopathy/tropical spastic paraparesis: correlation with increased HTLV-I proviral DNA load.

We studied the relationship between antibody titers to recombinant HTLV-I p40tax protein and gag-env hybrid protein in serum (by an enzyme-linked immunosorbent assay) and HTLV-I proviral DNA load in peripheral blood mononuclear cells (by a quantitative polymerase chain reaction method) in 18 patients with HTLV-I-associated myelopathy (HAM)/tropical spastic paraparesis (TSP), 17 HTLV-I carriers without HAM/TSP and 16 HTLV-I uninfected controls. The IgG and IgA antibody titers to either of the proteins correlated significantly with the HTLV-I pX (coding p40tax protein) and pol DNA amounts in HTLV-I infected subjects. HAM/TSP patients had significantly higher titers of IgG and IgA antibodies to the HTLV-I proteins than did the HTLV-I carriers without HAM/TSP. While the IgM antibodies to the HTLV-I proteins were found in only 6% of HTLV-I carriers without HAM/TSP, they were found in 40% of HAM/TSP patients, especially those having both a high HTLV-I proviral DNA load and high titers of the IgG and IgA antibodies. HAM/TSP patients with the IgM antibodies had a tendency to deteriorate more frequently on the Kurtzke's disability status scale and magnetic resonance imaging of the brain (leukoencephalopathy) than did those without in the two-year follow-up. Thus, the presence of IgM antibody and high titers of IgG and IgA antibodies to the HTLV-I proteins, together with the increased HTLV-I proviral DNA load, appears to distinguish HAM/TSP patients from HTLV-I carriers without HAM/TSP.     

HTLV-I proviral load correlates with progression of motor disability in HAM/TSP: analysis of 239 HAM/TSP patients including 64 patients followed up for 10 years

To clarify clinical and laboratory findings that may be related to the pathomechanism of HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP), we analyzed these findings in 239 patients with HAM/TSP, including 64 patients followed up for 10 years after their first examinations, with special interest in the HTLV-I proviral load in peripheral blood mononuclear cells (PBMCs). The proviral load in PBMCs did not differ in terms of modes of HTLV-I transmission. However, the proviral load in patients with age of disease onset greater than 65 years tended to be higher than those with a younger age of onset. In the 64 patients followed up for 10 years, the clinical symptoms deteriorated in 36 patients (56%), unchanged in 26 patients (41%), and improved in 2 patients (3%). HTLV-I proviral load also appeared to be related to the deterioration of motor disability in these patients. To our knowledge, the present study is the first longitudinal study concerning the relationship between the clinical course of HAM/TSP and HTLV-I proviral load. It is suggested that HTLV-I proviral load is related to the progression of motor disability and is an important factor to predict prognosis of patients with HAM/TSP.     

HTLV-I-associated myelopathy (HAM)/tropical spastic paraparesis (TSP) with amyotrophic lateral sclerosis-like manifestations

To clarify the existence of HAM/TSP presenting amyotrophic lateral sclerosis (ALS)-like manifestations, we assayed HTLV-I proviral load in peripheral blood mononuclear cells (PBMC) in 15 patients with anti-HTLV-I antibody in serum and ALS-like manifestations (upper motor neuron involvement in at least one region and lower motor neuron involvement in at least two limbs) by quantitative PCR, and compared the proviral load with that of 233 HAM/TSP patients and of 213 HTLV-I carriers. Five of 15 patients with ALS-like manifestations had proviral loads as high as those in the 233 patients with HAM/TSP. Anti-HTLV-I antibody in cerebrospinal fluid (CSF) was present in all of five patients. The proviral load in the remaining 10 patients was similar to that in HTLV-I carriers. Four of five patients with a high proviral load met the diagnostic criterion of HAM/TSP except for lower motor neuron involvement. These four patients showed high neopterin levels in CSF. On the basis of HTLV-I proviral load in PBMC and the clinical symptoms, our tentative conclusion is that these four patients are HAM/TSP presenting ALS-like manifestations.     

Possible association of HTLV-I infection and dementia

We report a Swedish patient with progressive dementia possibly associated with human T cell-lymphotropic virus type I (HTLV-I) infection. The clinical investigation revealed no typical sings of other neurological disorders. The patient was probably infected in East-Asia 35 years before onset of the disease. High titers of specific HTLV-I antibodies were detectable with solid-phase peptide ELISA in serum (1:1.600) and cerebrospinal fluid (CSF) (1:20), and the CSF/serum anti-HTLV-I antibody ratio indicated intrathecal HTLV-I antibody synthesis. Western blot for HTLV-I and polymerase chain reaction with primers selected for the HTLV-I pol gene were positive in both peripheral blood and cerebrospinal fluid. HTLV-I antigen was also demonstrated after in vitro co-cultivation of mononuclear cells from peripheral blood. Thus, our findings indicate that HTLV-I infection also may be associated with dementia. In addition, this case report calls attention upon HTLV-I as a possible etiologic agent to neurological diseases in countries previously spared from the infection.     

Chronic progressive cervical myelopathy with HTLV-I infection: variant form of HAM/TSP]

We report four patients with slowly progressive cervical myelopathy. The four patients had several features in common; 1) progressive cervical myelopathy with a duration of several months to years, 2) abnormal lesions in the cervical to upper thoracic cord levels with or without gadolinium enhancement, 3) anti-HTLV-I antibodies were positive both in serum and CSF, 4) high levels of HTLV-I proviral load in PBMC. The calculated risk of HAM/TSP in two patients showed a high value, comparable to those of HAM/TSP, and higher than those of healthy HTLV-I carrier. Because the clinical and laboratory findings of these four cases show similarities to those of HAM/TSP, we propose that these four cases may be a variant form of HAM/TSP.     

HTLV-I specific IFN-gamma+ CD8+ lymphocytes correlate with the proviral load in peripheral blood of infected individuals

Human T lymphotropic virus type I (HTLV-I)-associated myelopathy/tropical spastic paraparesis (HAM/TSP) is an inflammatory neurological disease caused by HTLV-I infection. It has been shown that HAM/TSP patients have high proviral loads and an extraordinarily high frequency of circulating CD8 + cytotoxic T lymphocytes specific for HTLV-I in their peripheral blood when compared to asymptomatic HTLV-I carriers (AC). We have previously described an intracellular cytokine detection assay, in which interferon-gamma (IFN-gamma) + CD8 + lymphocytes are specific for HTLV-I in infected individuals. Here, we have established a competitive polymerase chain reaction assay to measure the proviral load of patients and investigate a potential relationship between proviral load and virus-specific CD8 + lymphocytes. Genomic DNA was extracted from peripheral blood lymphocytes (PBL) from eight HAM/TSP patients and seven AC for the measurement of HTLV-I measuring proviral loads. The same PBL were analyzed for intracellular IFN-gamma expression by flow cytometry. In the HAM/TSP patients and AC, the average proviral loads were 34,482 and 9784 copy/microg DNA (P = 0.021), and the average of IFN-gamma + CD8 + lymphocytes in total PBL were 1.47 and 0.08% (P = 0.001), respectively. It was confirmed that HAM/TSP patients have both high proviral loads and increased HTLV-I-specific CD8 + lymphocytes. Furthermore, we found a positive correlation between both factors in the patients with HAM/TSP (P = 0.044) but not in the AC (P = 0.508). These findings suggest that the high number of HTLV-I-specific lymphocytes may result from the increased proviral load in HAM/TSP patients.     

Diversity of intrathecal antibody synthesis against HTLV-I and its relation to HTLV-I associated myelopathy

The humoral immune response against human T-cell lymphotropic virus type I (HTLV-I) in the central nervous system (CNS) compartment and in the blood was investigated by enzyme immunoassay using 16 synthetic peptides corresponding to HTLV-I core and envelope sequences. We evaluated paired samples of cerebrospinal fluid and serum from HTLV-I seropositive Japanese patients, classified as follows: HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP;n = 39), patients with spinal cord disease ascribed to either HAM/TSP or to some concomitant, HTLV-I-unrelated disease (possible HAM/TSP;n = 6) or carriers without any clinical signs of HAM/TSP (n = 15). HTLV-I-peptide-specific intrathecal antibody synthesis was found in 79% of HAM/TSP patients, but only in 20% of carriers without HAM/TSP. The group of carriers without HAM/TSP showed local synthesis for some peptides (on average 0.3 peptides per patient). In most HAM/TSP patients, however, there was a diverse intrathecal immune response to several HTLV-I synthetic peptides (on average against 3.6 peptides per HAM/TSP patient), most frequently againstgag p19 100–130,env gp21 458–488, andenv gp46 175–199 and 288–317. The intrathecal antibody synthesis against several HTLV-I determinants may represent a pathogenic immune response in HAM/TSP and is possibly related to the infiltration of virus-infected T-cells in the spinal cord.     

Increased HTLV-I proviral DNA in HTLV-I-associated myelopathy: a quantitative polymerase chain reaction study

Using the polymerase chain reaction, we quantitated the amount of human T-lymphotropic virus type I (HTLV-I) proviral DNA in peripheral blood mononuclear cells from 18 patients with HTLV-I--associated myelopathy/tropical spastic paraparesis; 17 HTLV-I carriers without HTLV-I--associated myelopathy/tropical spastic paraparesis, with or without other autoimmune or inflammatory diseases; and 19 seronegative control subjects. The HTLV-I proviral DNA was 10- to 100-fold higher in the patients and in the HTLV-I carriers without HAM/TSP who had autoimmune or inflammatory diseases than in the carriers without autoimmune or inflammatory diseases. The patients who had had onset of myelopathy at a younger age (15 to 39 years) had an extremely high level of HTLV-I proviral DNA in the early phase, as compared with findings in those with a late onset of myelopathy (at 44 to 61 years). The large increase in HTLV-I proviral DNA in peripheral blood mononuclear cells is presumably closely related to the development of autoimmune or inflammatory processes in HTLV-I carriers, including HTLV-I--associated myelopathy/tropical spastic paraparesis.     

Steroid-responsive myeloneuropathy in a man dually infected with HIV-1 and HTLV-I

Two human retroviruses, HIV-1 and HTLV-I, have been associated with myelopathies in addition to other neurologic disorders. We report an American dually infected with HIV-1 and HTLV-I who developed steroid-responsive myeloneuropathy. This 28-year-old bisexual man developed interstitial pneumonitis and a transient midthoracic sensory level followed by the evolution of a slowly progressive spastic paraparesis and sensorimotor neuropathy. Serologic studies demonstrated coinfection with both HIV-1 and HTLV-I. Peripheral blood absolute CD4 count was persistently within the normal range. Cranial MRI was normal and spinal MRI showed T3-T10 atrophy. Serial CSF analyses demonstrated marked intrathecal synthesis of anti-HTLV-I IgG, lymphocytic pleocytosis, elevated protein and immunoglobulin G, and oligoclonal bands. HIV-1 was isolated from CSF but not from peripheral nerve. Lymphoproliferative studies confirmed spontaneous proliferation in both blood and CSF. Soluble interleukin 2 receptor and soluble CD8 were greatly elevated in blood and CSF when compared with patients with HIV-related vacuolar myelopathy and seronegative patients with other causes of myelopathy. Nerve biopsy showed epi- and endoneurial CD8+ lymphocytic infiltration without vasculitis; muscle biopsy showed features of acute and chronic denervation. A 6-week course of prednisone produced sustained improvement in leg strength and walking times. We speculate that the myeloneuropathy was caused by HTLV-I in the setting of coinfection with HIV-1.     

Increased reactivity to HTLV-I in inflammatory nervous system diseases

The presence of IgG antibodies reacting with purified and disrupted human T-lymphotropic virus type I (HTLV-I) was examined by an indirect enzyme-linked immunosorbent assay (ELISA) in sera from 49 patients with multiple sclerosis (MS), 21 patients with aseptic meningoencephalitis (AM), 12 patients with Guillain-Barré syndrome (GB), and 30 patients with tension headache (TH). This was also assessed in the concentrated cerebrospinal fluid (CSF) of most of these patients, as well as in sera of 60 blood donors (BD). Standardized amounts of serum IgG and CSF IgG were used in ELISA. For sera, higher reactivity with HTLV-I was found in all four patient groups compared with the BD group, but no significant differences were observed among the four groups. There was higher reactivity with HTLV-I in the CSF of patients with MS, AM, and GB compared to findings in patients with TH. Ten serum (2 MS, 3 GB, 3 TH, 2 BD) and 3 CSF (1 MS, 1 GB, 1 TH) specimens considered positive by ELISA for HTLV-I were found negative on confirmatory Western blot analysis. We extended this study to analyze the in vitro production of anti-HTLV-I-IgG antibodies by the 24-hour cultivation of unstimulated lymphocytes from peripheral blood and CSF of 6 additional patients with MS directly in HTLV-I antigen-coated wells of microtiter plates. This was followed by determination of specific antibodies by ELISA in the same wells. No antibody production was measurable. Our data do not favor the hypothesis of an HTLV-I-related human retrovirus in the etiology of MS.     

Enlarged, multifocal upper limb neuropathy with HTLV-I associated myelopathy in a patient with chronic adult T-cell leukemia

The authors herein describe a case of multifocal peripheral neuropathy with HTLV-I-associated myelopathy (HAM) in a patient with chronic adult T-cell leukemia (ATL). The clinical features included subacute progressive sensory-motor neuropathy in the bilateral upper limbs, and bilateral pyramidal tract involvement with bladder dysfunction. An MRI with (67)gadolinium enhancement revealed enlargement of the affected peripheral nerves. (8)FDG positron emission tomography (PET) disclosed increased uptake in the affected nerves, suggesting neurolymphomatosis or inflammation. Anti-HTLV-I antibody was positive in both the serum and CSF. The HTLV-I proviral load in the peripheral blood mononuclear cells was high. Chemotherapy for ATL resulted in marked improvement of motor functions in the upper limbs. This is the first case of multifocal upper limb neuropathy with HAM in a patient with chronic ATL.     

The recent advances of HAM/TSP research]

The ninth international conference on HTLVs and related disorders was held on April 5-9, 1999 at Kagoshima, Japan under the conference chairperson, Dr. Mitsuhiro Osame. In this meeting, world-wide epidemiological data on HTLV-I carriers, ATL patients, and HAM/TSP patients were summarized as shown in the table. The total number of them was supposed to be more than 2.2 millions, 1,200, and 3,000, respectively. To elucidate the localization of HTLV-I proviral DNA directly, double staining using immunohistochemistry and PCR in situ hybridization in the spinal cords of HAM/TSP patients were performed. HTLV-I proviral DNA was localized only to OPD 4-positive cells (Matsuoka et al, 1998). The localization of HTLV-I messenger RNA was the same (Moritoyo et al, 1996). A novel technique to detect HTLV-I tax protein was also developed. In HAM/TSP patients, 0.04-1.16% of the CSF cells and 0.02-0.54% of PBMCs were positive for HTLV-I tax protein (Moritoyo et al, 1999). It was also hypothesized that HLA alleles control HTLV-I proviral load and thus influence susceptibility to HAM/TSP. Two hundred and thirty-two cases of HAM/TSP were compared with 201 randomly selected HTLV-I seropositive asymptomatic blood donors. It was shown that, after infection with HTLV-I, the class I allele HLA-A*02 halves the odds of HAM/TSP (p < 0.0001), preventing 28% of potential cases of HAM/TSP. Furthermore, HLA-A*02 positive healthy HTLV-I carriers have a proviral load one-third that (p = 0.0114) of HLA-A*02 negative HTLV-I carriers. An association of HLA-DRB1*0101 with disease susceptibility was also identified, which doubled the odds of HAM/TSP in the absence of the protective effect of HLA-A*02 (Jeffery and Usuku et al, 1999).     

HTLV-I-associated myelopathy endemic in Texas-born residents and isolation of virus from CSF cells

We report three Texas-born patients with spastic paraparesis and well-documented infection with HTLV-I. CSF examination showed moderate pleocytosis, protein elevation, and elevated IgG index. Oligoclonal bands were present in two patients. On MRI, one patient had frontal lobe lesions that were low intensity on T1- and high intensity on T2-weighted images. HTLV-I immunoblot studies of serum and CSF revealed reactivity to p19, p24, p53, gp46, or gp68 from all three patients. Titration studies of serum and CSF antibodies on ELISA and immunoblot assays indicated an intrathecal virus-specific response. HTLV-I-specific p19 antigen capture assay and polymerase chain reaction (PCR) demonstrated HTLV-I in lymphocyte cultures derived from each patient's peripheral blood mononuclear cells (PBMC) or CSF cells. Using HTLV-I- and HTLV-II-specific pol and gag primers, PCR studies of PBMC cells obtained directly from the patients demonstrated that the patients were infected with HTLV-I and not HTLV-II. These three cases are to our knowledge the only US cases in whom virus isolation from the CSF has been accomplished. Importantly, two patients may be the first US cases of myelopathy arising from endemic infection.     

Chronic hypertrophic cranial pachymeningitis associated with HTLV-I infection.

Two patients presenting with recurrent multiple cranial neuropathy showed diffuse thickening and gadolinium enhancement of the dura mater on brain MRI. Both had anti-HTLV-I antibodies in serum. A quantitative polymerase chain reaction study of the peripheral blood disclosed that the HTLV-I proviral DNA loads increased considerably in one case and moderately in the other. Both showed a spontaneous proliferation of peripheral blood lymphocytes as well as an increase in helper/inducer T cells. Neither had any other underlying infections or autoimmune diseases. Thus it is possible that hypertrophic pachymeningitis developed as a result of multiorgan involvement of HTLV-I infection in these patients.     

Multiple sclerosis or HTLV-I myelitis?

Several authors have demonstrated the presence of antibodies against the HTLV-I retrovirus in patients with MS. Considerable controversy exists regarding the etiologic significance, if any, of this finding, but the presence of these antibodies in the blood or CSF of MS patients has led to reconsideration of that diagnosis in certain cases. It is recommended that, before the diagnosis of MS is changed to that of HTLV-I-associated chronic myelitis, at least 2 of the following abnormalities be present: (1) clinical or electrophysiologic involvement of peripheral nerve or muscle; (2) the presence of oligoclonal bands in the serum; (3) the presence in blood or CSF of lymphocytes with multilobed nuclei; (4) a positive serologic test for syphilis; (5) the presence of a sicca syndrome; and (6) the presence of pulmonary lymphocytic alveolitis.     

Electroneuromyography and somatosensory evoked potentials in HTLV-I associated myelopathy

The objective of the present study was to correlate electroneuromyography (ENMG) and evoked potentials findings with clinical aspects and intrathecal synthesis of HTLV-I antibodies production on HTLV-I myelopathy (HAM). Patients were seropositive for HTLV-I by different assays and seronegative for HIV and VDRL. They had no other causes of myelopathy and peripheral neuropathy. Peripheral neuropathy was established in 34.3% of the cases by ENMG. Peripheral neuropathy was mostly asymmetric (82%), sensory motor (90%), axonal (54.5%) or of a mixed type (45.4%). In 63.6% of these cases related symptoms were observed. ABR was abnormal in one patient and the PRVEP in 28.5%, who were symptom-free. The SEP was abnormal in 85.7% of the cases, half of them presenting clinical complaints. In only 14% of the individuals with clinical manifestations, SEP was normal. In 28% of patients with abnormal SEP the ENMG disclosed a peripheral neuropathy.