Researchers’ discovery may explain difficulty in treating Lyme disease

Northeastern University researchers have found that the bad­terium that causes Lyme dis­ease forms for­mant per­sister cells, which are known to evade antibi­otics. This sig­nif­i­cant finding, they said, could help explain why it’s so dif­fi­cult to treat the infec­tion in some patients.

“It hasn’t been entirely clear why it’s dif­fi­cult to treat the pathogen with antibi­otics since there has been no resis­tance reported for the causative agent of the dis­ease,” explained Uni­ver­sity Dis­tin­guished Pro­fessor Kim Lewis, who led the North­eastern research team.

In other chronic infec­tions, Lewis’ lab has tracked the resis­tance to antibi­otic therapy to the pres­ence of per­sister cells–which are drug-tolerant, dor­mant vari­ants of reg­ular cells. These per­sister cells are exactly what they’ve iden­ti­fied here in Bor­relia burgdor­feri, the bac­terium that causes Lyme disease.

The researchers have also reported two approaches–one of them quite promising–to erad­i­cate Lyme dis­ease, as well as poten­tially other nasty infections.

Lewis and his col­leagues pre­sented their find­ings in a paper pub­lished online last week in the journal Antimi­cro­bial Agents and Chemotherapy. He co-authored the paper with North­eastern doc­toral stu­dents Bijaya Sharma and Autumn Brown, both PhD’16; recent grad­uate Nicole Matluck, S’15, who received her Bach­elor of Sci­ence in Behav­ioral Neu­ro­science; and Linden T. Hu, a pro­fessor of mol­e­c­ular biology and micro­bi­ology at Tufts University.

The research was sup­ported by grants from the Lyme Research Alliance and the National Insti­tutes of Health.

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