Mosquitoes are of great threat to human health because they transmit vector-borne diseases. Integrated vector management for mosquito control has gained interest rather than using chemical insecticides. Obligatory parasitic fungi, species of Coelomomyces (Blastocladiomycetes: Blastocladiales), have potential roles for mosquito control based on the advantages of high prevalence (often higher than 90%) and lethal effects. Four partial sequence data of Coelomomyces have been identified, however, data in Taiwan has not yet been available. Aedes albopictus were collected from northern Taiwan, and Coelomomyces were identified by both molecular method and scanning electron microscope. The potential of Coelomomyces on mosquito control was evaluated based on the survival rate of larvae. The modulation of antifungal immune responses in mosquito larvae to Coelomomyces infection was also estimated by RT-qPCR, including Rel1, Rel2, STAT, and TEP1. Interactions between Coelomomyces and dengue virus (DENV) in female adults were investigated by oral feeding of virus-infected blood. Vector competence and interactions between DENV and Coelomomyces in mosquito tissues were quantified by RT-qPCR. Ae. albopictus and Canthocamptus cf. kunzi were co-cultured in the laboratory to maintain Coelomomyces in vivo. Sequences of 18S SSU rDNA from three samples shows 88.77, 95.58, and 99.59% similarity to C. stegomyiae (Accession number: AF322406.1). The molecular and morphological data indicate that one novel strain of C. macleayae, and two strains of C. stegomyiae var. stegomyiae and C. stegomyiae var. chapmani were isolated. The infection rate of C. macleayae in the 1st instar larvae (90.67±4.16%, 136/150) was higher than the 2nd instar larvae (60.67±5.77%, 91/150) after incubating with 102.69 resting sporangia/ml solution for 2 days, and the mortality rates were 72.96±9.67% and 47.39±6.20%, respectively. In the 3rd instar larvae, the infection rate was 46.67±6.67%, and the mortality rate was 37.35±5.52% in 103.12 resting sporangia/ml solution (N=90). The expressions of Rel1 at 8d post-infection and Rel2 at 4d post-infection in the Ae. albopictus 3rd larvae infected by C. macleayae were significantly upregulated. It showed that the infection of Coelomomyces would activate the Toll and IMD pathway in the immune system of mosquito larvae. The life span of mosquitoes infected by C. macleayae significantly shortened to less than the EIP of dengue virus in Ae. albopictus and Coelomomyces may decrease the vectorial capacity through a shortening life span.