A region of the brain where adult neurogenesis takes place is in the subventricular zone (SVZ). Various types of interneurons in the olfactory bulbs are periodically replenished throughout adulthood to sustain neuronal homeostasis. The main supply of new interneurons arises from the neural stem cells in the SVZ. These neural progenitor cells (NPC) differentiate into neuroblasts (NB) and migrate in a chain-like formation through the rostral migratory stream (RMS) to the main olfactory bulbs (MOB), more specifically the granule cell layer (GCL) and the glomerular cell layer (GL). In previous studies, olfactory deficits, such as in odor perception impairment, may result from changes in the population of interneurons within the MOB. These olfactory deficits are some phenotypic indicators of psychological diseases, for example, schizophrenia. According to some studies, most schizophrenics have higher probability of acquiring olfactory deficits compared to non-psychotics. But, only a few studies propose correlations between adult neurogenesis and schizophrenia. Since neuregulin-1 (NRG1) is one of many schizophrenia susceptible genes, our study used transgenic mice with mutation in nrg1 gene to investigate adult neurogenesis. Immunofluorescence analysis of brain sections prepared from 7 to 9 weeks old wildtype (nrg1+/+) and mutant (nrg1+/-) NRG1 mice revealed that mutants tend to have 63% more in number of NPC (nestin) and 12% increase in migrating NB (doublecortin, DCX) in the dorsal-rostral part of SVZ. Consistent with the observations above, in the mutant NRG1 mice treated with 3 bromodeoxyuridine (BrdU), the number of newly generated NPC and NB in SVZ seemed to have increased 65% and 22% respectively. Interestingly, unlike the above, mutant NRG1 mice treated with BrdU appeared to exhibit 21% more newly produced NB in the rostral region (near the MOB) of the RMS. The western blot analysis results showed differences between wildtype and mutant NRG1 mice’s MOB in protein levels of tyrosine hydroxylase (TH), calretinin (CR), or calbindin (CB), but not GAD67, where expression level of TH and CR increased by 51% and 15.9% respectively, while CB expression level decreased by 53.2% after depletion of the ligand, NRG1. Immunofluorescence staining of different interneuron subtypes in the GL for TH and CB periglomerular (PG) cells are consistent with the results from western blot analysis with 33% increase for TH and 27% decrease for CB in cell numbers. We are suggesting the role of NRG1 is involved in proliferation of adult neural progenitor cells and distribution of migrating neuroblasts in the SVZ, RMS and MOB, as these are mostly precursors of MOB’s interneurons. Also, NRG1 may influence the differentiation of interneurons in the GL layer of MOB. This animal model for schizophrenia may contribute to the field in understanding the relationship between adult neurogenesis and pathogenesis of psychological diseases from cellular morphological standpoint.