TY - JOUR
T1 - Sequential trypsin and ProAlanase digestions unearth immunological protein biomarkers shrouded by skeletal collagen
AU - Wilkin, Shevan
AU - Lanigan, Liam T.
AU - Montes, Nuria
AU - Sharma, Mukul
AU - Avanzi, Charlotte
AU - Sejdiu, Donikë
AU - Majander, Kerttu
AU - Pfrengle, Saskia
AU - Chiang, Yun
AU - Kunz, Laura
AU - Dittmann, Antje
AU - Rühli, Frank
AU - Singh, Pushpendra
AU - Coll, Maria Fontanals
AU - Collins, Matthew J.
AU - Taurozzi, Alberto J.
AU - Schuenemann, Verena J.
N1 - Publisher Copyright:
© 2024
PY - 2024
Y1 - 2024
N2 - This study investigates the efficacy of proteomic analysis of human remains to identify active infections in the past through the detection of pathogens and the host response to infection. We advance leprosy as a case study due to the sequestering of sufferers in leprosaria and the suggestive skeletal lesions that can result from the disease. Here we present a sequential enzyme extraction protocol, using trypsin followed by ProAlanase, to reduce the abundance of collagen peptides and in so doing increase the detection of non-collagenous proteins. Through our study of five individuals from an 11th to 18th century leprosarium, as well as four from a contemporaneous non-leprosy associated cemetery in Barcelona, we show that samples from 2 out of 5 leprosarium individuals extracted with the sequential digestion methodology contain numerous host immune proteins associated with modern leprosy. In contrast, individuals from the non-leprosy associated cemetery and all samples extracted with a trypsin-only protocol did not. Through this study, we advance a palaeoproteomic methodology to gain insights into the health of archaeological individuals and take a step toward a proteomics-based method to study immune responses in past populations.
AB - This study investigates the efficacy of proteomic analysis of human remains to identify active infections in the past through the detection of pathogens and the host response to infection. We advance leprosy as a case study due to the sequestering of sufferers in leprosaria and the suggestive skeletal lesions that can result from the disease. Here we present a sequential enzyme extraction protocol, using trypsin followed by ProAlanase, to reduce the abundance of collagen peptides and in so doing increase the detection of non-collagenous proteins. Through our study of five individuals from an 11th to 18th century leprosarium, as well as four from a contemporaneous non-leprosy associated cemetery in Barcelona, we show that samples from 2 out of 5 leprosarium individuals extracted with the sequential digestion methodology contain numerous host immune proteins associated with modern leprosy. In contrast, individuals from the non-leprosy associated cemetery and all samples extracted with a trypsin-only protocol did not. Through this study, we advance a palaeoproteomic methodology to gain insights into the health of archaeological individuals and take a step toward a proteomics-based method to study immune responses in past populations.
KW - Biochemistry
KW - Biochemistry applications
KW - Biochemistry methods
KW - Medical biochemistry
KW - Proteomics
U2 - 10.1016/j.isci.2024.109663
DO - 10.1016/j.isci.2024.109663
M3 - Journal article
C2 - 38655200
AN - SCOPUS:85190558347
VL - 27
JO - iScience
JF - iScience
SN - 2589-0042
IS - 5
M1 - 109663
ER -