ABSTRACT
Objective@#To investigate the correlation between serum lysosomal-associated membrane protein 2 (LAMP-2), LAMP-2 antibody levels and the progression of renal function in patients with chronic kidney disease (CKD).@*Methods@#A total of 80 patients with CKD 3 to 5 stage (CKD group) and 50 healthy controls (control group) from August 2016 to August 2017 in Affiliated Dongfeng Hospital, Hubei University of Medicine were enrolled. The levels of hemoglobin, creatinine, urea, albumin, LAMP-2 and LAMP-2 antibody in fasting elbow venous blood of 2 groups were detected, and the estimate glomerular filtration rate (eGFR) was calculated. The CKD patients were followed up for 1 year, and renal function deterioration was defined as eGFR declined more than average value; the follow-up was over when the patients started dialysis or died, and those patients also defined as renal function deterioration. The patients were divided into high level group and low level group according to the serum LAMP-2 and LAMP-2 antibody levels.@*Results@#The eGFR, hemoglobin and albumin in CKD group were significantly lower than those in control group: (24.60 ± 5.79) ml/min vs. (119.20 ± 9.52) ml/min, (111.36 ± 24.41) g/L vs. (144.60 ± 17.85) g/L and (36.83 ± 3.84) g/L vs. (45.92 ± 6.37) g/L, the creatinine, urea, LAMP-2 and LAMP-2 antibody were significantly higher than those in control group: (306.17 ± 49.24) μmol/L vs. (83.24 ± 5.55) μmol/L, (15.17 ± 3.39) mmol/L vs. (5.57 ± 1.33) mmol/L, (24.76 ± 5.47) μg/L vs. (12.93 ± 4.43) μg/L and (20.33 ± 4.89) μg/L vs. (9.98 ± 2.20) μg/L, and there were statistical differences (P<0.01). All 80 patients with CKD patients completed follow-up, and the follow-up time was 3 to 12 (8.14 ± 1.95) months. The eGFR at the end of followed-up was significantly lower than that at enrolment: (19.38 ± 7.30) ml/min vs. (24.60 ± 5.79) ml/min, the creatinine and LAMP-2 antibody at the end of followed-up were significantly higher than those at enrolment: (397.56 ± 52.32) μmol/L vs. (306.17 ± 49.24) μmol/L and (22.35 ± 4.74) μg/L vs. (20.33 ± 4.89) μg/L, and there were statistical differences (P<0.01); there were no statistical differences in hemoglobin, albumin, urea and LAMP-2 between the end of follow-up and enrollment (P>0.05). Among the 80 patients with CKD, renal function deterioration was in 42 cases, and renal function stability was in 38 cases. In renal function deterioration patients, the eGFR and urea at the end of followed up were significantly lower than those at enrolment: (18.28 ± 6.92) ml/min vs. (24.46 ± 5.76) ml/min and (13.51 ± 1.92) mmol/L vs. (14.81 ± 3.32) mmol/L, the creatinine, LAMP-2 and LAMP-2 antibody at the end of followed up were significantly higher than those at enrolment: (412.47 ± 53.21) μmol/L vs. (303.16 ± 47.87) μmol/L, (29.07 ± 5.42) μg/L vs. (25.89 ± 5.39) μg/L and (25.03 ± 3.30) μg/L vs. (20.95 ± 4.86) μg/L, and there were statistical differences (P<0.01 or <0.05); there were no statistical differences in hemoglobin and albumin between the end of follow-up and enrolment (P>0.05). In renal function stability patients, the eGFR at the end of follow-up was significantly lower than that at enrolment: (20.38 ± 7.58) ml/min vs. (24.73 ± 5.89) ml/min, the creatinine at the end of follow-up was significantly higher than that at enrolment: (381.07 ± 46.64) μmol/L vs. (309.49 ± 51.15) μmol/L, and there were statistical differences (P<0.01); there were no statistical differences in hemoglobin, albumin urea, LAMP-2 and LAMP-2 antibody between the end of follow-up and enrolment (P>0.05). In CKD patients, 38 cases were in LAMP-2 high level group (≥ 24.75 μg/L), and 42 cases were in LAMP-2 low level group (<24.75 μg/L); 38 cases were in LAMP-2 antibody high level group (≥ 20.33 μg/L), and 42 cases were in LAMP-2 antibody low level group (<20.33 μg/L). Kaplan-Meier curve analysis result showed that the renal function deterioration risk in LAMP-2 high level group was significantly higher than that in LAMP-2 low level group, LAMP-2 antibody high level group was significantly higher than that in LAMP-2 antibody low level group, and there were statistical differences (P<0.01).@*Conclusions@#Serum LAMP-2, LAMP-2 antibody levels are increased in patients with CKD, and higher serum LAMP-2 and LAMP-2 antibody levels may be associated with high risk of adverse kidney outcomes and become a promising marker to predict CKD progression.
ABSTRACT
Objective To investigate the correlation between serum lysosomal- associated membrane protein 2 (LAMP-2), LAMP-2 antibody levels and the progression of renal function in patients with chronic kidney disease (CKD). Methods A total of 80 patients with CKD 3 to 5 stage (CKD group) and 50 healthy controls (control group) from August 2016 to August 2017 in Affiliated Dongfeng Hospital, Hubei University of Medicine were enrolled. The levels of hemoglobin, creatinine, urea, albumin, LAMP-2 and LAMP-2 antibody in fasting elbow venous blood of 2 groups were detected, and the estimate glomerular filtration rate (eGFR) was calculated. The CKD patients were followed up for 1 year, and renal function deterioration was defined as eGFR declined more than average value; the follow-up was over when the patients started dialysis or died, and those patients also defined as renal function deterioration. The patients were divided into high level group and low level group according to the serum LAMP-2 and LAMP-2 antibody levels. Results The eGFR, hemoglobin and albumin in CKD group were significantly lower than those in control group: (24.60 ± 5.79) ml/min vs. (119.20 ± 9.52) ml/min, (111.36 ± 24.41) g/L vs. (144.60 ± 17.85) g/L and (36.83 ± 3.84) g/L vs. (45.92 ± 6.37) g/L, the creatinine, urea, LAMP-2 and LAMP-2 antibody were significantly higher than those in control group: (306.17 ± 49.24) μmol/L vs. (83.24 ± 5.55) μmol/L, (15.17 ± 3.39) mmol/L vs. (5.57 ± 1.33) mmol/L, (24.76 ± 5.47) μg/L vs. (12.93 ± 4.43) μg/L and (20.33 ± 4.89) μg/L vs. (9.98 ± 2.20) μg/L, and there were statistical differences (P﹤0.01). All 80 patients with CKD patients completed follow-up, and the follow-up time was 3 to 12 (8.14 ± 1.95) months. The eGFR at the end of followed-up was significantly lower than that at enrolment:(19.38 ± 7.30) ml/min vs. (24.60 ± 5.79) ml/min, the creatinine and LAMP-2 antibody at the end of followed- up were significantly higher than those at enrolment: (397.56 ± 52.32) μmol/L vs. (306.17 ± 49.24) μmol/L and (22.35 ± 4.74) μg/L vs. (20.33 ± 4.89) μg/L, and there were statistical differences (P﹤0.01); there were no statistical differences in hemoglobin, albumin, urea and LAMP-2 between the end of follow-up and enrollment (P>0.05). Among the 80 patients with CKD, renal function deterioration was in 42 cases, and renal function stability was in 38 cases. In renal function deterioration patients, the eGFR and urea at the end of followed up were significantly lower than those at enrolment:(18.28 ± 6.92) ml/min vs. (24.46 ± 5.76) ml/min and (13.51 ± 1.92) mmol/L vs. (14.81 ± 3.32) mmol/L, the creatinine, LAMP-2 and LAMP-2 antibody at the end of followed up were significantly higher than those at enrolment: (412.47 ± 53.21) μmol/L vs. (303.16 ± 47.87) μmol/L, (29.07 ± 5.42) μg/L vs. (25.89 ± 5.39) μg/L and (25.03 ± 3.30) μg/L vs. (20.95 ± 4.86) μg/L, and there were statistical differences (P﹤0.01 or﹤0.05); there were no statistical differences in hemoglobin and albumin between the end of follow-up and enrolment (P>0.05). In renal function stability patients, the eGFR at the end of follow-up was significantly lower than that at enrolment: (20.38 ± 7.58) ml/min vs. (24.73 ± 5.89) ml/min, the creatinine at the end of follow-up was significantly higher than that at enrolment: (381.07 ± 46.64) μmol/L vs. (309.49 ± 51.15) μmol/L, and there were statistical differences (P﹤0.01); there were no statistical differences in hemoglobin, albumin urea, LAMP-2 and LAMP-2 antibody between the end of follow-up and enrolment (P>0.05). In CKD patients, 38 cases were in LAMP-2 high level group (≥24.75 μg/L), and 42 cases were in LAMP-2 low level group (﹤24.75 μg/L); 38 cases were in LAMP-2 antibody high level group (≥20.33 μg/L), and 42 cases were in LAMP-2 antibody low level group (﹤20.33 μg/L). Kaplan-Meier curve analysis result showed that the renal function deterioration risk in LAMP-2 high level group was significantly higher than that in LAMP-2 low level group, LAMP-2 antibody high level group was significantly higher than that in LAMP-2 antibody low level group, and there were statistical differences (P﹤0.01). Conclusions Serum LAMP-2, LAMP-2 antibody levels are increased in patients with CKD, and higher serum LAMP-2 and LAMP-2 antibody levels may be associated with high risk of adverse kidney outcomes and become a promising marker to predict CKD progression.