Purposes: Nationally, preservice teacher education does not emphasize training related to science teaching. However, when teaching in self-contained special education classrooms, teachers must teach science. Furthermore, current in-service teacher training programs are still in the developmental stage; therefore, professional science teaching training programs must be developed for special education teachers. Methods: This study adopted a case study methodology to explore the professional knowledge transformation and progress of five special education teachers in self-contained classrooms; the teachers were determined to participate in a scientific inquiry professional development program. Data were analyzed through cross-case analysis and a constant comparative method. This program emphasized the use of guided inquiry teaching materials, corresponding problem-solving strategies aligned to teachers' problems, and a cross-disciplinary science-based teacher professional learning community. The program consisted of a Natural Science Curriculum day workshop, models of curricular implementations, consultations with science education experts, and individual guidance from the first author/researcher. Data were collected over a one and a half year period and included professional development meeting records, teaching video clips, various other documents, interview transcripts, teaching self-reflection logs, and researcher notes. Results/Findings: The results of study are outlined as follows: Before participating in the professional development program, the five special education teachers typically used a narrative or lecture approach to science teaching. In the initial stages of implementing inquiry teaching, the teachers performed the teaching steps of inquiry teaching hastily, resulting in general teaching and assessment problems. After the implementation of the professional development program, the teachers not only changed their concepts of inquiry teaching but also enhanced their inquiry teaching skills and teaching fluency. This change in teacher conceptual knowledge and skills resulted in an increase in the motivation and participation of students with significant cognitive disabilities; this increase further enabled students to develop the ability to compare similarities and differences and discussion skills related to inquiry processes. However, the participating teachers still lacked the inquiry-based instructional skills of guiding students' questioning and prediction skills and needed to improve it continually. Conclusions/Implications: After participating in a scientific inquiry professional development program, five special education teachers demonstrated the characteristics of inquiry teaching and facilitated their students’ learning participation and some inquiry skills, such as observing, operating, comparison and discussing. Our study proposes the organization of cross-disciplinary teacher professional learning communities, models of curricular implementations, and teaching templates as essential scaffolds for positively influencing special education teachers in professional development programs in effectively developing skills for scientific inquiry teaching. A few suggestions related to in-service programs and future studies are specified based on the findings of the study. The results of this study can serve as a reference for the future planning of science teaching professional development programs for special education instructors teaching in self-contained classrooms.